User:Izzymuot29/sandbox

Structure
The prolactin receptor (PRLR) is a membrane-bound protein of the cytokine receptor superfamily. In humans, it is encoded by a single gene which contains 11 exons and is located on chromosome 5. PRLR expression can be found in several tissues such as the gonads, breast, uterus, heart, liver, kidney, brain, immune cells, as well as adrenal and pituitary glands.

Several PRLR isoforms have been described in different tissues. These have varying lengths and cytoplasmic domain composition, but share identical extracellular domains, which are the regions binding to PRLR.

Diversity of PRLR is a result of transcription initiation in different sites of the PRLR promoter region. Additionally, post-translational modifications, like alternative splicing are the events that result in the different isoforms that allow for all the different actions of prolactin in the body.

Signalling
The PRLR is a class 1 cytokine receptor that uses messenger pathways to control cell proliferation, migration, intracellular ion concentration and inhibit programmed cell death (apoptosis). PRLRs also have functions in the second messenger cascades, including:


 * JAK-STAT pathway – the STAT protein family has been shown to have a key transduction role in cytokine receptor signalling; this pathway is initiated following the activation of PRLRs. Although there have been 4 STAT proteins identified as transducer molecules of PRLR, STAT5 is recognised as the most important transducer of PRLR isoforms, with a role in inhibiting regulation of gene transcription.
 * Ras-Raf-MAPK – initiated by PRLR activation. Phosphotyrosine residues on PRLR act as binding sites for adapter proteins – these connect PRLR to the Ras/Raf/MAP kinase cascade
 * JAK-RUSH pathway
 * PI3K/AKT/mTOR pathway

This is my sandbox. This is where I edit my drafts.