Anti-Sodium/Hydrogen Exchanger 1/NHE-1 antibody

Supplementary info

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

Activity summary

The Sodium/Hydrogen Exchanger 1 (NHE-1) also known as NHE transporter or antisodium exchanger plays a significant role in regulating intracellular pH and cell volume by exchanging sodium ions for hydrogen ions across the plasma membrane. NHE-1 is a type of NHE protein with a molecular weight of approximately 85-110 kDa. This transmembrane protein is widely expressed in various tissues including the heart brain kidneys and skeletal muscles where it helps maintain cellular homeostasis.

Biological function summary

NHE-1 impacts cellular processes by modulating pH levels within cells and participating in the regulation of cell proliferation differentiation and apoptosis. It doesn’t function as part of a larger complex but plays an independent role essential to cellular ionic balance. The proper functioning of NHE-1 is critical for the survival and functionality of many cell types as it helps adapt to changes in metabolic and environmental conditions.

Pathways

NHE-1 integrates into key cellular signaling systems such as the mitogen-activated protein kinase (MAPK) pathway and the Apoptosis signaling pathway. In the MAPK pathway NHE-1 interacts with signaling molecules to influence cellular responses to growth signals. Additionally its regulation of intracellular pH and ionic concentrations intersects with pathways involving proteins like Calcineurin which can impact various cellular responses and adaptations.

Associated diseases and disorders

NHE-1 is heavily linked to several cardiovascular conditions including hypertension and cardiac hypertrophy. Its dysregulation can alter cardiac cell function contributing to the pathology of these diseases. In cancer aberrant NHE-1 activity may lead to increased cell survival and proliferation. The protein also connects to disorders like ischemia where its function influences the role of related proteins like Na+/K+ ATPase further implying NHE-1’s involvement in pathological states.