Highlights Approximately 650,000 people will be diagnosed this year with cancers of the oral cavity and pharynx worldwide. The absence of biomarkers for the disease early detection contributes to the late diagnosis. Despite some advances with regards to treatment, overall survival has not significantly improved in decades. We have shown that increased relative mRNA expression of KLK5 to LEKTI is associated with disease’s poor outcome. This work supports the relative expression of KLK5 to LEKTI as a valuable prognostic marker.
Aging is a gradual biological process characterized by a decrease in cellular and organism functions. Aging-related processes involve changes in the expression and activity of several proteins. Here, we identified the transmembrane protease serine 11a (TMPRSS11a) as a new age-specific protein that plays an important role in skin wound healing. TMPRSS11a levels increased with age in rodent and human skin and gingival samples. Strikingly, overexpression of TMPRSS11a decreased cell migration and spreading, and inducing cellular senescence. Mass spectrometry, bioinformatics, and functional analyses revealed that TMPRSS11a interacts with integrin β 1 through an RGD sequence contained within the C-terminal domain and that this motif was relevant for cell migration. Moreover, TMPRSS11a was associated with cellular senescence, as shown by overexpression and downregulation experiments.In agreement with tissue-specific expression of TMPRSS11a, shRNA-mediated downregulation of this protein improved wound healing in the skin, but not in thePlasmids encoding mouse TMPRSS11a (MYC-DDK-tagged, #MR220783) and human TMPRSS11a (MYC-DDK-tagged, #RC221395) were purchased from Origene, Rockville, MD. Plasmids encoding human TMPRSS11a-EGFP was purchased from GenScript, Piscataway, NJ. USA. Beta-1 integrin-mCherry was kindly provided by Dr Davidson (via Addgene plasmid #55064). Empty vectors pcDNA4/TO or EGFP were from Lonza (Bend, USA). skeletal muscle of old mice, where TMPRSS11a is undetectable. Collectively, these findings indicate that TMPRSS11a is a tissue-specific factor relevant for wound healing, which becomes elevated with aging, promoting cellular senescence and inhibiting cell migration and skin repair.
Rats were injected with rat recombinant (rr) IL3, rrSCF, rrIL-3+rrSCF, rrRANTES and LTB4. Six hours after subcutaneous injection of rrIL-3 or rrIL-3+rrSCF, there was an increase in mast cell numbers in the skin and spleen. Peritoneal mast cells were recruited following i.p. injection of rrIL-3, but with rrIL-3+rrSCF recruitment was delayed. Immunostaining with a mast cell specific antibody showed that immature orthochromatic mast cells were being recruited. rrIL-3 induced recruitment of mast cells to the peritoneal cavity was blocked by anti-integrin antibodies. Mast cell recruitment depended on the target tissue and the time of exposure to the chemoattractant.
Persistent infection with Human papillomavirus (HPV) is the main etiologic factor for pre-malignant and malignant cervical lesions. Moreover, HPV is also associated with oropharynx and other anogenital carcinomas. Cancer-causing HPV viruses classified as group 1 carcinogens include 12 HPV types, with HPV 16 and 18 being the most prevalent. High-risk HPVs express two oncoproteins, E6 and E7, the products of which are responsible for the inhibition of p53 and pRB proteins, respectively, in human keratinocytes and cellular immortalization. p53 and pRB are pleiotropic proteins that regulate the activity of several signaling pathways and gene expression. Among the important factors that are augmented in HPV-mediated carcinogenesis, proteases not only control processes involved in cellular carcinogenesis but also control the microenvironment. For instance, genetic polymorphisms of matrix metalloproteinase 1 (MMP-1) are associated with carcinoma invasiveness. Similarly, the serine protease inhibitors hepatocyte growth factor activator inhibitor-1 (HAI-1) and -2 (HAI-2) have been identified as prognostic markers for HPV-dependent cervical carcinomas. This review highlights the most crucial mechanisms involved in HPV-dependent carcinogenesis, and includes a section on the proteolytic cascades that are important for the progression of this disease and their impact on patient health, treatment, and survival.
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