MUC16, precursor of the most widely used ovarian cancer biomarker CA125, is up
regulated in multiple malignancies and is associated with poor prognosis. While the
pro-tumorigenic and metastatic roles of MUC16 are ascribed to the cell-associated
carboxyl-terminal MUC16 (MUC16-Cter), the exact biochemical nature of MUC16 cleavage
generating MUC16-Cter has remained unknown. Using different lengths of dual-epitope
(N-terminal FLAG- and C-terminal HA-Tag) tagged C-terminal MUC16 fragments, we
demonstrate that MUC16 cleavage takes place in the juxta-membrane ectodomain stretch
of twelve amino acids that generates a ~17 kDa cleaved product and is
distinct from the predicted sites. This was further corroborated by domain swapping
experiment. Further, the cleavage of MUC16 was found to take place in the
Golgi/post-Golgi compartments and is dependent on the acidic pH in the secretory
pathway. A similar pattern of ~17 kDa cleaved MUC16 was observed in
multiple cell types eliminating the possibility of cell type specific phenomenon.
MUC16-Cter translocates to the nucleus in a cleavage dependent manner and binds to
the chromatin suggesting its involvement in regulation of gene expression. Taken
together, we demonstrate for the first time the oft-predicted cleavage of MUC16 that
is critical in designing successful therapeutic interventions based on MUC16.
Background: We have previously reported that low concentrations of cigarette smoke extract induce DNA damage without leading to apoptosis or necrosis in human bronchial epithelial cells (HBECs), and that IL-6/STAT3 signaling contributes to the cell survival. Since NF-κB is also involved in regulating apoptosis and cell survival, the current study was designed to investigate the role of NF-κB in mediating cell survival in response to cigarette smoke exposure in HBECs.
Degradation of preexisting and newly synthesized extracellular matrix is thought to play an important role in tissue remodeling. The current study evaluated whether thrombin and TNF-␣/IL-1 could collaboratively induce collagen degradation by human fetal lung fibroblasts (HFL-1) and adult bronchial fibroblasts cultured in threedimensional collagen gels. TNF-␣/IL-1 alone induced production of matrix metalloproteinases (MMPs)-1, -3, and -9, which were released in latent form. With the addition of thrombin, the latent MMPs were converted into active forms and this resulted in collagen gel degradation. Part of the activation of MMPs by thrombin resulted from direct activation of MMP-1, MMP-2, MMP-3, and MMP-9 in the absence of cells. In addition, tissue inhibitor of metalloproteinase-1 production was inhibited by the combination of thrombin and TNF-␣/ IL-1. These results suggest that thrombin and TNF-␣/IL-1 synergize to induce degradation of three-dimensional collagen gels through increasing the production and activation of MMPs, and that this effect is mediated through both direct activation of MMPs by thrombin and indirectly by thrombin activation of fibroblasts. Through such mechanisms, thrombin could contribute to many chronic lung disorders characterized by tissue remodeling.
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