==== Reference: Usmani SS, Bedi G, Samuel JS, Singh S, Kalra S, Kumar P, et al. (2017) THPdb: Database of FDA-approved peptide and protein therapeutics. PLoS ONE 12(7) e0181748.====

Detailed description page of THPdb


Details of Th1040 which contains 8 entries.


Entry 1
(1) Primary information
ID1275
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesHypoglycemic Agents
Patents NumberUS5474978
Date of Issue16/06/94
Date of Expiry16/06/14
Drug InteractionThe beta-blocker, acebutolol, atenolol, bisoprolol, carvedilol, may decrease symptoms of hypoglycemia.
TargetInsulin receptor,Insulin-like growth factor 1 receptor
Information of corresponding available drug in the market
Brand NameHumalog
CompanyEli Lilly
Brand DiscriptionHUMALOG (insulin lispro injection, USP [rDNA origin]) is a rapid-acting human insulin analog used to lower blood glucose. Insulin lispro is produced by recombinant DNA technology utilizing a non-pathogenic laboratory strain of Escherichia coli. Insulin li
Prescribed forHumalog is used to treat type 1 diabetes in adults. It is usually given together with another long-acting insulin. Humalog is also used together with oral medications to treat type 2 diabetes in adults.
Chemical NameN.A.
FormulationEach milliliter of HUMALOG contains insulin lispro 100 units, 16 mg glycerin, 1.88 mg dibasic sodium phosphate, 3.15 mg Metacresol, zinc oxide content adjusted to provide 0.0197 mg zinc ion, trace amounts of phenol, and Water for Injection. Insulin lispro
Physcial AppearanceSterile, aqueous, clear, and colorless solution
Route of AdministrationSubcutaneous and Intravenous infusion
Recommended DosageThe total daily insulin requirement may vary and is usually between 0.5 to 1 unit/kg/day. Insulin requirements may be altered during stress, major illness, or with changes in exercise, meal patterns, or coadministered drugs. Usual maintenance range is 0.5-1 unit/kg/day in divided doses; nonobese may require 0.4-0.6 unit/kg/day; obese may require 0.8-1.2 units/kg/day.
ContraindicationDuring episodes of hypoglycemia in patients who are hypersensitive to HUMALOG or to any of its excipients.
Side EffectsLow blood sugar--headache, hunger, weakness, sweating, confusion, irritability, dizziness, fast heart rate, or feeling jittery.
Useful Linkhttp://pi.lilly.com/us/humalog-pen-pi.pdf
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 2
(2) Primary information
ID1276
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesAntidiabetic Agents
Patents NumberUS5514646
Date of Issue07/05/93
Date of Expiry07/05/13
Drug InteractionConcomitant therapy with drugs like Dextropropoxyphene, Pentoxifylline, Pramlintide, Fluoxetine, Fenofibrate and Disopyramide that may increase the blood-glucose-lowering effect of insulin lispro
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful Linkhttp://www.rxlist.com/humalog-drug.htm
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 3
(3) Primary information
ID1277
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesN.A.
Patents NumberCA2151564
Date of Issue11/02/03
Date of Expiry12/06/15
Drug InteractionConcomitant therapy with ACE inhibitors like Enalapril and Ramipril may increase the blood-glucose-lowering effect of insulin lispro and thus the chance of hypoglycemia should be monitored closely.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful Linkhttp://www.drugs.com/humalog.html
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 4
(4) Primary information
ID1278
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesN.A.
Patents NumberCA2151560
Date of Issue09/05/00
Date of Expiry12/06/15
Drug InteractionConcomitant therapy with diuretics like Hydrochlorothiazide may reduce the blood-glucose-lowering effect of insulin lispro.
TargetN.A.
Information of corresponding available drug in the market
Brand NameHumalog KwikPen
CompanyEli Lilly
Brand DiscriptionInsulin lispro is a fast-acting form of insulin that works by lowering levels of glucose in the blood.
Prescribed forInsulin lispro is used to treat type 1 diabetes in adults. It is usually given together with another long-acting insulin. Insulin lispro is also used together with oral medication to treat type 2 diabetes in adults.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceSolution
Route of AdministrationSubcutaneous injection
Recommended DosageInsulin lispro can be administered intravenously under medical supervision at concentrations from 0.1 unit/mL to 1 unit/mL in infusion systems containing 0.9% sodium chloride. Blood glucose and potassium levels should be closely monitored to avoid hypoglycemia.
ContraindicationDuring episodes of hypoglycemia in patients who are hypersensitive to HUMALOG or to any of its excipients.
Side EffectsLow blood sugar is the most common side effect. There are many causes of low blood sugar, including taking too much Humalog. Severe life-threatening allergic reactions (whole-body reactions) can happen.Reactions at the injection site (local allergic reaction.
Useful Linkhttp://www.drugs.com/mtm/humalog-kwikpen.html
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 5
(5) Primary information
ID1279
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesN.A.
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionConcomitant therapy with angiotensin II receptor blockers like Losartan may increase the blood-glucose-lowering effect of insulin lispro and thus the chance of hypoglycemia should be monitored closely.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful Linkhttps://kwikpenvoucher.humalog.com/form_voucher.cfm
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 6
(6) Primary information
ID1280
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesN.A.
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionConcomitant therapy with somatostatin analogs like Octreotide may increase the blood-glucose-lowering effect of insulin lispro and thus the chance of hypoglycemia should be monitored closely.
TargetN.A.
Information of corresponding available drug in the market
Brand NameHumalog Pen
CompanyEli Lilly
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 7
(7) Primary information
ID1281
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesN.A.
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionThe beta-blocker, esmolol, may decrease symptoms of hypoglycemia.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)


Entry 8
(8) Primary information
ID1282
ThPP IDTh1040
Therapeutic Peptide/Protein NameInsulin Lispro
SequenceA chain:GIVEQCCTSICSLYQLENYCN;B chain:FVNQHLCGSHLV view full sequnce in fasta
Functional ClassificationIa
Molecular Weight5808
Chemical FormulaC257H387N65O76S6
Isoelectric Point5.39
Hydrophobicity0.218
Melting Point (℃)81
Half LifeOn subcutaneous administration = 1 hour
DescriptionInsulin lispro is a recombinant human insulin analogue produced in a specialized laboratory strain of Escherischia coli. Plasmid DNA transfected into the bacteria encodes for an analogue of human insulin that has a lysine at residuce B28 and proline at B29; these residues are reversed in endogenous human insulin. Reversal of these amino acid residues produces a rapid-acting insulin analogue. FDA approved on 1996.
Indication/DiseaseTo treat type 1 or 2 diabetes mellitus. To be used in conjunction with an intermediate or long-acting insulin except when used in a continuous insulin infusion pump.
PharmacodynamicsInsulin is a natural hormone produced by beta cells of the pancreas. In non-diabetic individuals, a basal level of insulin is supplemented with insulin spikes following meals. Increased insulin secretion following meals is responsible for the metabolic changes that occur as the body transitions from a postabsorptive to absorptive state. Insulin promotes cellular uptake of glucose, particularly in muscle and adipose tissues, promotes energy storage via glycogenesis, opposes catabolism of energy stores, increases DNA replication and protein synthesis by stimulating amino acid uptake by liver, muscle and adipose tissue, and modifies the activity of numerous enzymes involved in glycogen synthesis and glycolysis. Insulin also promotes growth and is required for the actions of growth hormone (e.g. protein synthesis, cell division, DNA synthesis). Insulin lispro is a rapid-acting insulin analogue used to mimic postprandial insulin spikes in diabetic individuals. The onset of action of insulin lispro is 10-15 minutes. Its activity peaks 60 minutes following subcutaneous injection and its duration of action is 4-5 hours. Compared to regular human insulin, insulin lispro has a more rapid onset of action and a shorter duration of action. Insulin lispro is also shown to be equipotent to human insulin on a molar basis.
Mechanism of ActionInsulin lispro binds to the insulin receptor(IR), a heterotetrameric protein consisting of two extracellular alpha units and two transmembrane beta units. The binding of insulin to the alpha subunit of IR stimulates the tyrosine kinase activity intrinsic to the beta subunit of the receptor. The bound receptor autophosphorylates and phosphorylates numerous intracellular substrates such as insulin receptor substrates (IRS) proteins, Cbl, APS, Shc and Gab 1. Activation of these proteins leads to the activation of downstream signaling molecules including PI3 kinase and Akt. Akt regulates the activity of glucose transporter 4 (GLUT4) and protein kinase C (PKC), both of which play critical roles in metabolism and catabolism. In humans, insulin is stored in the form of hexamers; however, only insulin monomers are able to interact with IR. Reversal of the proline and lysine residues at positions B28 and B29 of native insulin eliminates hydrophobic interactions and weakens some of the hydrogen bonds that contribute to the stability of the insulin dimers that comprise insulin hexamers. Hexamers of insulin lispro are produced in the presence of zinc and -cresol. These weakly associated hexamers quickly dissociate upon subcutaneous injection and are absorbed as monomers through vascular endothelial cells. These properties give insulin lispro its fast-acting properties.
ToxicityInappropriately high dosages relative to food intake and/or energy expenditure may result in severe and sometimes prolonged and life-threatening hypoglycemia. Neurogenic (autonomic) signs and symptoms of hypoglycemia include trembling, palpitations, sweat
MetabolismInsulin is predominantly cleared by metabolic degradation via a receptor-mediated process.
AbsorptionRapidly absorbed following subcutaneous administration. It is also absorbed more quickly than regular human insulin. Peak serum levels occur 30-90 minutes after injection in healthy subjects. Absorption also differs depending on the site of injection. Aft
Volume of DistributionWhen administered intravenously as bolus injections of 0.1 and 0.2 U/kg dose in two separate groups of healthy subjects, the mean volume of distribution of insulin lispro appeared to decrease with increase in dose (1.55 and 0.72 L/kg, respectively).
ClearanceClearance is dose dependent. When a dose of 0.1 unit/kg and 0.2 unit/kg were administered intravenously, the mean clearance was 21.0 mL/min/kg and 9.6 mL/min/kg respectively.
CategoriesN.A.
Patents NumberN.A.
Date of IssueN.A.
Date of ExpiryN.A.
Drug InteractionConcomitant therapy with sympathomimetic agents like Epinephrine may reduce the blood-glucose-lowering effect of insulin lispro.
TargetN.A.
Information of corresponding available drug in the market
Brand NameN.A.
CompanyN.A.
Brand DiscriptionN.A.
Prescribed forN.A.
Chemical NameN.A.
FormulationN.A.
Physcial AppearanceN.A.
Route of AdministrationN.A.
Recommended DosageN.A.
ContraindicationN.A.
Side EffectsN.A.
Useful LinkN.A.
PubMed ID18454569, 20424816, 19496630, 18076215, 17764465, 17703632, 16706558, 11118018
3-D StructureTh1040 (View) or (Download)