Soluble factors released from platelets can modulate the immune response of leukocytes. We and others have recently found that T lymphocytes with bound platelets have reduced proliferation and IFN-γ and IL-17 production. Thus, we speculate that if we induce the binding of platelets to lymphocytes, we will be able to regulate the inflammatory response. When we cocultured platelets with lymphocytes at different ratios, we were able to increase the percentage of lymphocytes with bound platelets. The coculture of platelets with lymphocytes in the presence of stimulation decreased the production of IFN-γ and TNF-α, T cell proliferation, and the expression of CD25, PD-L1, and SLAM. However, this coculture increased CD39 expression. All of these effects were dependent on the dose of platelets and operated indistinctly with platelets from different healthy donors. When platelets were cocultured in the same compartment with lymphocytes, we observed less IFN-γ and TNF-α production and T lymphocyte proliferation than in cultures with platelets separated from lymphocytes by a 0.4-μm pore size filter. The binding of platelets to lymphocytes was blocked with anti-P-selectin Abs, and when this occurred we observed higher IFN-γ and TNF-α production than in nonblocked conditions. The cocultures of platelets with synovial fluid cells from rheumatoid arthritis patients reduced inflammatory cytokine production and increased IL-10 production. These results suggest that platelet binding to lymphocytes effectively regulates T lymphocyte function. This mechanism could be easily applied to reduce inflammatory responses.
KISS1 is a metastasis suppressor lost in several solid malignancies. We evaluated the clinical relevance of KiSS-1 methylation and its protein expression in colorectal cancer. The epigenetic silencing of KiSS-1 by hypermethylation was tested in colon cancer cells (n = 5) before and after azacytidine treatment. KiSS-1 methylation was evaluated by methylation-specific PCR in colorectal cancer cells, and normal, benign, and tumor tissues (n = 352) were grouped in a training set (n = 62) and two independent validation cohorts (n = 100 and n = 190). KiSS-1 protein expression was analyzed by immunohistochemistry on tissue arrays. KiSS-1 hypermethylation correlated with transcript and protein expression loss, being increased in vitro by azacytidine. Methylation rates were 53.1, 70.0, and 80.0 % in the training and validation sets, respectively. In the training set, KiSS-1 methylation rendered a diagnostic accuracy of 72.7 % (p = 0.002). Combination of KiSS-1 methylation and serum CEA (p = 0.001) increased the prognostic utility of CEA alone (p = 0.022). In the first validation set, KiSS-1 methylation correlated with tumor grade (p = 0.011), predicted recurrence (p = 0.009), metastasis (p = 0.004), disease-free (p = 0.034), and overall survival (p = 0.015). In the second validation cohort, KiSS-1 methylation predicted disease-specific survival (p = 0.030). In the training set, cytoplasmic KiSS-1 expression was significantly higher in nonneoplastic biopsies as compared to colorectal tumors (p < 0.0005). In the validation set, loss of cytoplasmic expression correlated with tumor stage (p = 0.007), grade (p = 0.035), recurrence (p = 0.017), and disease-specific survival (p = 0.022). KiSS-1 was revealed epigenetically modified in colorectal cancer. The diagnostic and prognostic utility of KiSS-1 methylation and expression patterns suggests their assessment for the clinical management of colorectal cancer patients.
KISS1 is a metastasis suppressor gene that is lost in several malignancies, including bladder cancer. We tested the epigenetic silencing hypothesis and evaluated the biological influence of KISS1 methylation on its expression and clinical relevance in bladder cancer. KISS1 hypermethylation was frequent in bladder cancer cells analyzed by methylation-specific PCR and bisulfite sequencing and was associated with low gene expression, being restored in vitro by demethylating azacytidine. Hypermethylation was also frequently observed in a large series of bladder tumors (83.1%, n ؍ 804). KISS1 methylation was associated with increasing stage (P ؍ 0.001) and tumor grade (P ؍ 0.010). KISS1 methylation was associated with low KISS1 transcript expression by quantitative RT-PCR (P ؍ 0.037). KISS1 transcript expression was also associated with histopathological tumor stage (P < 0.0005). Low transcript expression alone (P ؍ 0.003) or combined with methylation (P ؍ 0.019) was associated with poor disease-specific survival (n ؍ 205).KISS1 transcript expression remained an independent prognosticator in multivariate analyses (P ؍ 0.017). KISS1 hypermethylation was identified in bladder cancer, providing a potential mechanistic explanation (epigenetic silencing) for the observed loss of KISS1 in uroepithelial malignancies. Associations of KISS1 methylation and its expression with histopathological variables and poor survival suggest the utility of incorporating KISS1 measurement using paraffin-embedded material for tumor stratification and clinical outcome prognosis of patients with uroepithelial neoplasias.
MTHFR, DHFR and ATIC genetic variants can be considered as pharmacogenetic markers of outcome in RA patients under MTX monotherapy.
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