XBP1 is also essential for differentiation of plasma cells (a type of antibody secreting immune cell). This differentiation requires not only the expression of XBP1 but the expression of the spliced isoform of XBP1s. XBP1 regulates plasma cell differentiation independent of its known functions in the endoplasmic reticulum stress response (see below). Without normal expression of XBP1, two important plasma cell differentiation-related genes, IRF4 and Blimp1, are misregulated, and XBP1-lacking plasma cells fail to colonize their long-lived niches in the bone marrow and to sustain antibody secretion.
XBP1 is required for eosinophil differentiation. Eosinophils lacking XBP1 exhibit defects in granule proteins.
XBP1 acts to regulate endothelial cell proliferation through growth factor pathways, leading to angiogenesis. Additionally, XBP1 protects endothelial cells from oxidative stress by interacting with HDAC3.
XBP1 is part of the endoplasmic reticulum (ER) stress response, the unfolded protein response (UPR). Conditions that exceed capacity of the ER provoke ER stress and trigger the unfolded protein response (UPR). As a result, GRP78 is released from IRE1 to support protein folding. IRE1 oligomerises and activates its ribonuclease domain through auto (self) phosphorylation. Activated IRE1 catalyses the excision of a 26 nucleotide unconventional intron from ubiquitously expressed XBP1u mRNA, in a manner mechanistically similar to pre-tRNA splicing. Removal of this intron causes a frame shift in the XBP1 coding sequence resulting in the translation of a 376 amino acid, 40 kDa, XBP-1s isoform rather than the 261 amino acid, 33 kDa, XBP1u isoform.
Moreover, the XBP1u/XBP1s ratio (XBP1-unspliced/XBP1-spliced ratio) correlates with the expression level of expressed proteins in order to adapt the folding capacity of the ER to the respective requirements.
Abnormalities in XBP1 lead to a heightened ER stress and subsequently causes a heightened susceptibility for inflammatory processes that may contribute to Alzheimer's disease. In the colon, XBP1 anomalies have been linked to Crohn's disease.
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