Bioinformatic Study of Possible Acute Regulation of Acid Secretion in the Stomach.
Yan Hay Grace LeeNicole T CerfNicholas ShalabyMónica R MontesRonald J ClarkePublished in: The Journal of membrane biology (2024)
The gastric H + ,K + -ATPase is an integral membrane protein which derives energy from the hydrolysis of ATP to transport H + ions from the parietal cells of the gastric mucosa into the stomach in exchange for K + ions. It is responsible for the acidic environment of the stomach, which is essential for digestion. Acid secretion is regulated by the recruitment of the H + ,K + -ATPase from intracellular stores into the plasma membrane on the ingestion of food. The similar amino acid sequences of the lysine-rich N-termini α-subunits of the H + ,K + - and Na + ,K + -ATPases, suggests similar acute regulation mechanisms, specifically, an electrostatic switch mechanism involving an interaction of the N-terminal tail with the surface of the surrounding membrane and a modulation of the interaction via regulatory phosphorylation by protein kinases. From a consideration of sequence alignment of the H + ,K + -ATPase and an analysis of its coevolution with protein kinase C and kinases of the Src family, the evidence points towards a phosphorylation of tyrosine-7 of the N-terminus by either Lck or Yes in all vertebrates except cartilaginous fish. The results obtained will guide and focus future experimental research.
Keyphrases
- amino acid
- protein kinase
- liver failure
- respiratory failure
- induced apoptosis
- endoplasmic reticulum
- quantum dots
- drug induced
- aortic dissection
- cell cycle arrest
- working memory
- tyrosine kinase
- hepatitis b virus
- anaerobic digestion
- transcription factor
- oxidative stress
- intensive care unit
- endoplasmic reticulum stress
- ionic liquid
- human health
- risk assessment
- reactive oxygen species
- small molecule
- mechanical ventilation