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Th1100 details
Primary information
ID10509
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S2
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberUS5686411
Date of Issue11-Nov-1997
Date of Expiry16-Mar-2019
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameSymlin
CompanyAmylin Pharmaceuticals (now a wholly owned subsidiary of AstraZeneca)
Brand DescriptionAmylin Pharmaceuticals (now a wholly owned subsidiary of AstraZeneca)
Prescribed ForSYMLIN is indicated as an adjunctive treatment in patients with type 1 or type 2 diabetes who use mealtime insulin therapy and who have failed to achieve desired glucose control despite optimal insulin therapy.
Chemical NameNA
FormulationThe disposable multidose SymlinPen pen-injector contains 1000 mcg/mL of pramlintide (as acetate). The formulation contains 2.25 mg/mL of metacresol as a preservative, D-mannitol as a tonicity modifier, acetic acid, sodium acetate as pH modifiers, and water for injection. SYMLIN has a pH of approximately 4.0
Physical Appearance Clear, isotonic, sterile solution for subcutaneous administration
Route of AdministrationSubcutaneous
Recommended DosageReduce mealtime insulin doses by 50%, then initiate SYMLIN at 15 mcg subcutaneously, injecting immediately prior to each major meal. Increase the SYMLIN dose to the next increment (30, 45, or 60 mcg) when no clinically significant nausea has occurred for at least 3 days. If significant nausea persists at the 45 or 60 mcg dose level, the SYMLIN dose should be decreased to 30 mcg. If the 30 mcg dose is not tolerated, discontinuation of SYMLIN therapy should be considered.
ContraindicationNA
Side EffectsNausea, Anorexia, Vomiting, Arthralgia, Fatigue, Allergic Reaction, Dizziness
Useful Link 1Link
Useful Link 2NA
RemarksNA


Primary information
ID10510
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S3
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberUS6610824
Date of Issue26-Aug-2003
Date of Expiry29-May-2011
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10511
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S4
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10512
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S5
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10513
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S6
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10514
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S7
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10515
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S8
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10516
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S9
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10517
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S10
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10518
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S11
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10519
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S12
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
NA
ClearanceNA
CategoriesNA
Patents NumberNA
Date of IssueNA
Date of ExpiryNA
Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
Brand NameNA
CompanyNA
Brand DescriptionNA
Prescribed ForNA
Chemical NameNA
FormulationNA
Physical Appearance NA
Route of AdministrationNA
Recommended DosageNA
ContraindicationNA
Side EffectsNA
Useful Link 1NA
Useful Link 2NA
RemarksNA


Primary information
ID10520
Therapeutic IDTh1100
Protein NamePramlintide
Sequence>Th1100_Pramlintide KCNTATCATQRLANFLVHSSNNFGPILPPTNVGSNTY
Molecular Weight3949.44
Chemical FormulaC171H267N51O53S13
Isoelectric PointNA
HydrophobicityNA
Melting pointNA
Half-lifeApproximately 48 minutes
DescriptionNew adjunct treatment for type I and type II diabetes. It is developed by Amylin Pharmaceuticals. It is derived from amylin, a hormone released after meal, in a pattern similar to insulin. Diabetic patients are also deficient in amylin.
Indication/DiseaseFor the treatment of type 1 and type 2 diabetes mellitus as an adjunct to preprandial insulin therapy in patients without adequate glycemic control of insulin therapy.
PharmacodynamicsPramlintide is a synthetic analog of amylin, a glucoregulatory hormone that is synthesized by pancreatic β-cells and released into the bloodstream, in a similar pattern as insulin, after a meal. Like insulin, amylin is deficient in individuals with diabetes. It is provided as an acetate salt. Pramlintide is a 37-amino acid polypeptide that differs structurally from human amylin by the replacement of alanine, serine, and serine at positions 25, 28, and 29 respectively with proline.
Mechanism of ActionPramlintide is an amlyinomimetic, a functional analog of the naturally occurring pancreatic hormone amylin. Amylin has activity in a number of gastrointestinal and glucodynamic systems, and by mimicking its activity, pramlintide acts to improve glycemic control through modulation of the rate of gastric emptying, prevention of post-prandial rise in glucagon levels, and by increasing sensations of satiety, thereby reducing caloric intake and potentiating weight loss. There appears to be at least three distinct receptor complexes that bind with high affinity to amylin. All three complexes contain the calcitonin receptor at the core, plus one of three Receptor activity-modifying proteins, RAMP1, RAMP2, or RAMP3.
ToxicityNA
MetabolismMetabolized primarily by the kidneys.
AbsorptionThe absolute bioavailability of a single subcutaneous dose of pramlintide is approximately 30 to 40%.
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Drug InteractionNA
TargetCalcitonin receptor,Receptor activity-modifying protein 1,Receptor activity-modifying protein 2,Receptor activity-modifying protein 3
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