Gastric inhibitory peptidestimulus Gastric inhibitory peptide (GIP), also known as glucose-dependent insulinotropic polypeptide, is a crucial gastrointestinal hormone that plays a significant role in regulating blood glucose levels. This 42-amino acid peptide is secreted by specialized neuroendocrine cells, primarily K cells, located in the duodenum and jejunum of the upper small intestine. Its primary function is to enhance insulin secretion in response to nutrient intake, a process central to maintaining metabolic balance after a meal.
Originally named for its ability to inhibit gastric acid secretion, modern research has revealed that GIP's most significant physiological impact lies in its role as an incretin hormone.作者:K Osei·1985·被引用次数:8—Gastric inhibitory polypeptide (GIP) isa gastrointestinal hormone stimulated after oral nutrient ingestion, but not after intravenous nutrient ... Incretins are hormones released from the gut in response to food consumption that amplify insulin secretion from pancreatic beta cells. GIP accounts for a substantial portion of this incretin effect, stimulating insulin release in a glucose-dependent manner, meaning it is most effective when blood glucose levels are elevated. Beyond insulin secretion, GIP also influences other metabolic processes, including promoting fat storage and potentially affecting appetite regulation.
* Structure: GIP is a peptide hormone composed of 42 amino acids.作者:K Gupta·2024·被引用次数:26—The glucose-dependent insulinotropic polypeptide (GIP), formerly termed "gastric inhibitory peptide," was first isolated in 1973 from ...
* Secretion: It is released into the bloodstream from K cells in the upper small intestine shortly after the ingestion of nutrients, particularly carbohydrates and fats.Discovery of gastric inhibitory polypeptide and its ...
* Insulinotropic Effect: GIP's primary role is to stimulate the pancreas to release insulin. This response is proportional to the blood glucose level, ensuring that excess glucose is efficiently cleared from the circulation.
* Metabolic Regulation: GIP contributes to postprandial glucose metabolism by facilitating the uptake and storage of glucose. It also plays a role in lipid metabolism.
* Gastric Inhibition (Historical Context): While historically named for its inhibitory effect on gastric acid secretion, this function is now considered secondary to its role as an incretin.
* Incretin Family: GIP is a key member of the incretin family, alongside glucagon-like peptide-1 (GLP-1). Both hormones work in concert to manage glucose homeostasis.
GIP functions by binding to specific GIP receptors (GIP-R) found on various cells, including pancreatic beta cells, adipocytes, and even neurons in the central nervous system. The interaction between GIP and its receptor is vital for mediating its downstream effects. Research has also explored the interplay between GIP and GLP-1, identifying them as the two main incretin hormones involved in nutrient disposal. Understanding these hormonal interactions is crucial for comprehending the complex regulation of metabolismGastric inhibitory polypeptide (GIP; 137240), also called glucose-dependent insulinotropic polypeptide,is a 42-amino acid polypeptidesynthesized by K ....
The significant role of GIP in glucose regulation has made it a target for therapeutic interventions, particularly in the context of diabetes and obesityGastric Inhibitory Polypeptide - an overview. Research is actively investigating GIP receptor agonists and antagonists as potential treatments for these conditionsGastric Inhibitory Peptide (CAS 100040-31-1), aka glucose-dependent insulinotropic peptide,is a 42 amino acid that stimulates insulin secretion.. By modulating GIP signaling, scientists aim to improve insulin sensitivity, reduce appetite, and enhance glucose control. The exploration of GIP's broader physiological effects, including its impact on the central nervous system and its potential involvement in conditions beyond metabolic disorders, continues to expand our understanding of this vital hormone.
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