S.A Sukharev scite author profile

S.A Sukharev

4Publications

33Citation Statements Received

33Citation Statements Given

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Institute of Bioorganic Chemistry

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Role of proteases in activation of apoptosis

1997

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Programmed cell death, or apoptosis, is a physiological cell suicide mechanism, which is triggered in the cells by different stimuli. It has been shown that proteases play a significant role both in the target cell killing by cytotoxic lymphocytes and in the TNF-or anti-Fas-induced cell death. The proteases involved in the early (induction) and late (cell self-destruction) stages of apoptosis are reviewed. It is suggested that the late stages are connected with the activation of a cascade of intracellular proteases, which leads to massive protein destruction. It is likely that the protein destruction is mainly designed for preventing autoimmune response to proteins released from dying cells.

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Study of protein carbonyls in subcellular fractions isolated from liver and spleen of old and γ-irradiated rats

Pleshakova

Kutsyi

Sukharev

et al. 1998

Mechanisms of Ageing and Development

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Age- and Radiation-Dependent Changes in Carbonyl Content, Susceptibility to Proteolysis, and Antigenicity of Soluble Rat Liver Proteins

Sukharev

Pleshakova

Moshnikova

et al. 1997

Comparative Biochemistry and Physiology Part B: Biochemistry an

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Neutrophils as a source of putative restriction proteases: degradation of mammalian and yeast proteins monitored by two-dimensional gel electrophoresis.

Lefkovits¹,

Frey²,

Kuhn³

et al. 1997

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We have compared the ability of intact neutrophils to degrade a complex substrate of proteins from mammalian and yeast origin. The substrate was obtained by biosynthetic labeling, and subsequent lysis of K562 cells (leukemic cell line) and of yeast culture. The mammalian substrate consisted of 619 and the yeast substrate of 185 different polypeptides, as visualized and represented on two-dimensional gel patterns. Upon incubation of the mammalian substrate with neutrophils, the bulk of spots disappeared so rapidly that after 240 min of incubation only 21 spots were detectable. Just one spot remained unaltered in its intensity throughout the whole period of incubation. About 440 spots reveal a t1/2 shorter than 8 min. Yeast substrate is represented by a smaller number of the starting polypeptides (185) from which 55 spots "survive" the neutrophil treatment. About 30 spots have a t1/2 shorter than 8 min. We conclude that neutrophils are equipped with a potent proteolytic apparatus, and this is capable of eliminating various proteins in a highly efficient manner. The system is much less effective in eliminating proteins from distant species, like yeast. Although the cells governing and regulating the immune system are clearly of lymphoid origin, it might well be that the preimmune task of eliminating self antigens in a manner as predicted in the restriction protease hypothesis is performed by neutrophils.

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S.A Sukharev

Role of proteases in activation of apoptosis

Study of protein carbonyls in subcellular fractions isolated from liver and spleen of old and γ-irradiated rats

Age- and Radiation-Dependent Changes in Carbonyl Content, Susceptibility to Proteolysis, and Antigenicity of Soluble Rat Liver Proteins

Neutrophils as a source of putative restriction proteases: degradation of mammalian and yeast proteins monitored by two-dimensional gel electrophoresis.

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