И. Р. Сумеди scite author profile

И. Р. Сумеди

4Publications

14Citation Statements Received

81Citation Statements Given

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Affiliations

Ministry of Health of the Russian Federation, Pirogov Russian National Research Medical University, City Clinical Hospital No. 2

Publications

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Changes in Proteasome Chymotrypsin-Like Activity during the Development of Human Mammary and Thyroid Carcinomas

et al. 2013

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Changes in the proteasome chymotrypsin-like activity in mammary and thyroid carcinomas in comparison with the adjacent tissue were studied at stages T(1-4)N(0-3)M(0) and T(2-3)N(0-1)M(0), respectively. The activities changed in a wave-like manner over the course of mammary carcinoma growth in cases with and without metastases. The minimum increment of the activity in the tumor was recorded during the T(2)N(0) stage in the absence of local metastases. The increment of the activity reached the peak in N(1) tumors of the same size with metastases. The activities in the tumor and adjacent tissues virtually did not differ during the T(3-4)N(1-3) stages. The time course of proteasome activity changes in thyroid tumors of the studied stages was similar to that in mammary carcinoma. The results can be used for development of methods for evaluating the aggressiveness of mammary and thyroid tumors.

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Changes in proteasome pool in human papillary thyroid carcinoma development

Шарова

Astakhova

Karpova

et al. 2011

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Searching the antitumor drug targets among proteasomes, “ubiquitous” enzyme systems, may provide a new impulse to the antitumor drug discovery. In this study, changes in the proteasome pool in the development of human papillary thyroid carcinoma were determined. Proteasome activities were evaluated by hydrolysis of commercial fluorogenic peptides. Changes in the expression of the total proteasome pool, proteasome 19S activator and proteolytic constitutive subunits X(β5), Y(β1) and immune subunits LMP7 (β5i) and LMP2 (β1i) were investigated by Western blotting. The distribution of the proteasome subunits in thyroid gland cells was detected by immunohistochemistry. It was shown that the chymotrypsin- and caspase-like activities as well as the expression of the total proteasome pool, proteasome 19S activator and immune subunits increased gradually in the tumors at the T2N0M0 and T3N0M0 stages in comparison with the control tissues. Among the structures studied, the expression of the 19S activator and immune proteasomes, which contain the LMP2 (β1i) subunit, was enhanced to the largest degree in tumor cells. The data obtained may be implicated in a new therapeutic strategy. Taking into consideration the antitumor function of the immune proteasomes, we advance the 19S activator as the target for the development of a novel antitumor therapy.

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Effect of Neoadjuvant Chemoradiation Therapy on Proteasome Pool in Rectal Cancer

et al. 2017

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In untreated rectal cancer patients, the chymotrypsin-like activity of proteasomes in tumor tissue was 3-fold higher than that in conventionally normal tissue, which is explained by up-regulation of expression of immunoproteasomes and total pool of proteasomes. After neoadjuvant chemoradiation therapy, expressions of the total pool of proteasomes and immunoproteasomes in the tumor as well as the relative ratios of these indices to those in conventionally normal tissue were smaller by 1.4-3.3 times in comparison with the untreated patients. These changes were paralleled with pronounced (4.5-fold) down-regulation of proteasome activity in the tumor and a 3.7-fold decrease of activity ratio for the proteasomes in tumor and in conventionally normal tissue. The number of immunoproteasome subunits and the chymotrypsin-like activity of proteasomes can be viewed as potential markers to prognosticate effectiveness of neoadjuvant chemoradiation therapy in rectal cancer patients.

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Proteasomes in Patient Rectal Cancer and Different Intestine Locations: Where Does Proteasome Pool Change?

Erokhov

Куликов

Karpova

et al. 2021

Cancers

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A special problem in the surgery of rectal cancer is connected with a need for appropriate removal of intestine parts, along with the tumor, including the fragment close to the sphincter. To determine the length of fragments to remove, it is necessary to reveal areas without changes in molecule functioning, specific for tumor. The purpose of the present study was to investigate functioning the proteasomes, the main actors in protein hydrolysis, in patient rectal adenocarcinoma and different intestine locations. Chymotrypsin-like and caspase-like activities, open to complex influence of different factors, were analyzed in 43–54 samples by Suc-LLVY-AMC- and Z-LLE-AMC-hydrolysis correspondingly. Both activities may be arranged by the decrease in the location row: cancer→adjacent tissue→proximal (8–20 cm from tumor) and distal (2 and 4 cm from tumor) sides. These activities did not differ noticeably in proximal and distal locations. Similar patterns were detected for the activities and expression of immune subunits LMP2 and LMP7 and expression of 19S and PA28αβ activators. The largest changes in tumor were related to proteasome subtype containing LMP2 and PA28αβ that was demonstrated by native electrophoresis. Thus, the results indicate a significance of subtype LMP2-PA28αβ for tumor and absence of changes in proteasome pool in distal fragments of 2–4 cm from tumor.

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