The suppressor of cytokine signaling (SOCS) group of proteins has been implicated in regulation of various cytokine signaling and in a negative crosstalk between distinct signaling pathways. Interleukin-10 (IL-10) and LPS were known to induce expression of SOCS-3 in neutrophils and monocytes/macrophages. IL-10 was also reported to inhibit a proinflammatory signal-induced NF-kappaB activation in monocytes and peripheral T lymphocytes. The effects of increased SOCS-3 expression upon IL-10 regulation of NF-kappaB activation have not yet been demonstrated. Here we examined the effects of SOCS-3 on NF-kappaB activity. SOCS-3 did not induce any alterations in NF-kappaB activity induced by LPS or TNF-alpha. However, it enhanced RelA-dependent kappaB promoter activity when cotransfected with RelA. Similar results were observed with SOCS-1. In contrast, SOCS-2 did not show any regulatory effects on RelA activity. Analysis of C-terminal truncation mutants of SOCS-1 and SOCS-3 demonstrated that the SOCS box and its N-terminal region, a less well-conserved linker region were important for SOCS-3 activation of RelA. In contrast, the SOCS box itself was critical for SOCS-1 to activate RelA. These results suggest that SOCS proteins can enhance the effects of NF-kappaB/Rel proteins, and therefore, further modulate immune and inflammatory responses.
Transglutaminase 2 (TGase2, TG2) activity has been implicated in the pathogenesis of a number of unrelated disorders, including celiac, neurological, and renal diseases, and various forms of cancer. It has been suggested that TGase2 activity, such as cross-linking, deamidation, and GTP-related activity, is associated with each disease. Continuing efforts to develop small molecule TG2 inhibitors are ongoing. To develop a new class of TG2 inhibitors, the factors impeding the development of TG2 inhibitors have been identified. Additionally, the conformational effect of TG2 enzyme in regard to its pathological roles, in vitro screening methods, recently discovered TG2 inhibitors, and preclinical evaluations are discussed with a brief summary of current TG2 inhibitor pipelines under the clinical setting.
To evaluate the association of TNF-alpha (TNFA) and TNF-beta (TNFB) polymorphisms with psoriasis in the Korean population, we investigated TNF-alpha -238 and -308 promoter region and TNF-beta NcoI polymorphism using PCR-RFLP in 103 Korean psoriasis patients and 125 normal controls. The carriage and allele frequencies of TNFB*2 were significantly increased in patients with psoriasis compared with normal controls. However, TNFB*1/1 homozygote and TNFB*1 allele were significantly decreased in the patients. There were no significant differences in the polymorphism of TNF-alpha promoter -238 and -308 between the patients and controls. We also analyzed the frequencies of TNFB alleles according to the clinical characteristics of the psoriasis patients, but no significant differences were found. However, female patients with early-onset psoriasis showed an association with the TNFB*2 allele. In conclusion, our results suggest that polymorphisms of the TNFB gene may contribute to a predisposition to psoriasis in the Korean population.
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