Arginine hypomethylation-mediated proteasomal degradation of histone H4-an early biomarker of cellular senescence.

Senescence is accompanied with histones level alteration; however, the roles and the mechanisms of histone reduction in cellular senescence are largely unknown. Protein arginine methyltransferase 1 (PRMT1) is the major enzyme that generates monomethyl and asymmetrical dimethyl arginine. Here we showed that abrogation of PRMT1-mediated senescence was accompanied with decreasing histone H4 level. Consistently, under multiple classic senescence models, H4 decreasing was also been found prior to the other 3 core histones. Noticeably, asymmetric demethylation of histone H4 at arginine 3 (H4R3me2as), catalyzed by PRMT1, was decreased prior to histone H4. In addition, we showed that the PRMT1-mediated H4R3me2as maintained H4 stability. Reduction of H4R3me2as level increased the interaction between proteasome activator PA200 and histone H4, which catalyzes the poly-ubiquitin-independent degradation of H4. Moreover, H4 degradation promoted nucleosome decomposition, resulting in increased senescence-associated genes transcription. Significantly, H4 was restored by 3 well-informed anti-aging drugs (metformin, rapamycin, and resveratrol) much earlier than other senescence markers detected under H2O2-induced senescence. Thus, we uncovered a novel function of H4R3me2as in modulation of cellular senescence via regulating H4 stability. This finding also points to the value of histone H4 as a senescence indicator and a potential anti-aging drug screening marker.

Novel nanoscale bacteriophage-based single-domain antibodies for the therapy of systemic infection caused by Candida albicans.

Candida albicans (C. albicans) is an important human commensal and opportunistic fungal pathogen. Secreted aspartyl proteinases (Saps) are a major virulence trait of C. albicans, and among these proteases Sap2 has the highest expression levels. It is possible that antibodies against Sap2 could provide an antifungal effect. In this study, two phages displaying anti-rSap2 single chain variable fragments (scFvs) were screened from human single fold scFv libraries, and their potential therapeutic roles were evaluated using a murine model infected by C. albicans. The in vivo efficacies were assessed by mortality rates, fungal burden and histological examination. Overall survival rates were significantly increased while the colony counts and infectious foci were significantly decreased after treatment with the scFv-phages relative to the control groups. In order to investigate the immune response provoked by scFv-phages, three kinds of cytokines (Th1, Th2 and Th17 types) were measured and a clear immune response was observed. These findings suggest that anti-rSap2 scFv-phages have potential in the therapy of systemic infection caused by C. albicans.