Anti-TMEM158 antibody

Supplementary info

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

Activity summary

TMEM158 also known as RERG (Ras-related estrogen-regulated growth inhibitor) is a protein that weighs approximately 23 kDa. It is a transmembrane protein often found expressed in various tissues with significant expression noted in the brain and breast tissue. TMEM158 plays a role in cell signaling by functioning as a modulator within the membrane. Its presence in these tissues indicates a role in regulating cellular responses to external stimuli acting as a part of the cellular signaling machinery.

Biological function summary

TMEM158 influences several growth-related processes. It does not form part of a large protein complex but rather acts independently to influence cell population proliferation. TMEM158's activity can affect cellular responses to hormonal changes especially in tissues that are sensitive to estrogen. By interacting with cellular growth signals it has a regulatory effect on pathways that control cell division and growth suggesting its potential involvement in controlling tumor progression in estrogen-sensitive tissues.

Pathways

TMEM158 plays a role in the MAPK (mitogen-activated protein kinase) signaling pathway. This pathway is vital for cell growth and division and TMEM158's modulation can influence how cells respond to external mitogenic signals. In this context proteins such as ERK1/2 (extracellular signal-regulated kinases) interact with TMEM158 affecting signal transduction and potentially altering downstream effects such as gene expression and cellular survival.

Associated diseases and disorders

TMEM158 has been connected to breast cancer due to its involvement in estrogen signaling and cell proliferation. Estrogen receptor-positive breast cancer exhibits altered TMEM158 expression patterns. Connections to proteins such as the estrogen receptor (ER) link TMEM158 to cancer-related pathways. Besides cancer aberrant expression of TMEM158 has implications in neurological disorders where its expression in brain tissue suggests potential roles in neurodegenerative diseases although this area requires further research to clarify its impact.