PE Anti-Insulin antibody [EPR17359]

Supplementary info

This supplementary information is collated from multiple sources and compiled automatically.

Activity summary

Insulin a peptide hormone plays an essential mechanical role in carbohydrate and fat metabolism. Insulin alternatively known as bovine insulin in some research contexts has a molecular mass of around 5800 Da. Beta cells in the pancreas express insulin where it gets secreted directly into the bloodstream. The hormone regulates glucose levels by facilitating the uptake of glucose into cells such as muscle and adipose tissues.

Biological function summary

Insulin influences several key metabolic processes by binding to its receptor a component of the insulin receptor substrate family. This triggers a cascade of events within cells promoting the uptake of glucose and converting it into energy. Insulin operates as a singular entity but plays a critical role in forming a complex with its receptor. This interaction triggers downstream effects that alter the activity of enzymes and transcription factors involved in glucose and lipid metabolism.

Pathways

Insulin is critical for the regulation of the PI3K-AKT signaling pathway and the MAPK pathway. These pathways modulate processes such as cell growth proliferation and survival. Insulin interacts closely with other proteins in these pathways such as the insulin receptor substrate proteins and influences downstream proteins like AKT kinase which has a significant role in mediating the metabolic effects initiated by insulin binding.

Associated diseases and disorders

Insulin is most notably linked to diabetes mellitus characterized by insufficient insulin production or action. This deficiency disrupts normal glucose homeostasis leading to hyperglycemia. Other associated proteins include glucagon which counteracts insulin's role in lowering blood glucose levels and IRS-1 an important element through which insulin signaling is transduced. Researchers utilize mouse insulin ELISA and insulin ELISA kits to better understand these relationships and develop treatments for insulin-related disorders.