T. M. Astakhova

New approach to study of T cellular immunity development: parallel investigation of lymphoid organ formation and changes in immune proteasome amount in rat early ontogenesis.

The expression pattern and distribution of proteasome immune subunits LMP7 and LMP2 in the developing rat spleen and liver as well as the periarterial lymphoid sheath formation were investigated. LMP7 and LMP2 were detected by immunoblotting in the spleen on the 21st embryonic day and during the first postnatal days in equal amounts. Their levels increased by the 8th and 18th postnatal days. Double immunofluorescent labeling the spleen cells revealed LMP7 and LMP2 in T and B lymphocytes localized in the red pulp in embryogenesis. Few T lymphocytes were discovered in periarterial zones on the 8th postnatal day. T lymphocytes filled these zones and formed lymphoid sheaths by the 18-19th day. In the liver, LMP7 and LMP2 were revealed by the 17-19th postnatal day. Immunofluorescent analysis showed their presence in hepatocytes at this period. The data suggest that T cell-mediated immune response in relation to hepatocytes is possible beginning from 18th to 19th postnatal day.

Multiple Forms of Proteasomes and Approaches to Their Separation

A technique for proteasome isolation from the rat liver has been developed, which allows isolation of a 26S proteasome fraction free from 20S proteasome admixture. The technique includes consecutive stages of protein fractionation by precipitation with different concentrations of ammonium sulfate, gel filtration on Sepharose 2B, and ultracentrifugation.

Pattern of MHC class I and immune proteasome expression in Walker 256 tumor during growth and regression in Brattleboro rats with the hereditary defect of arginine-vasopressin synthesis

Dynamics of the expression of MHC class I, immune proteasomes and proteasome regulators 19S, PA28, total proteasome pool and proteasome chymotrypsin-like activity in Walker 256 tumor after implantation into Brattleboro rats with the hereditary defect of arginine-vasopressin synthesis was studied. The tumor growth and regression in Brattleboro rats were accompanied by changes in the proteasome subunit level unlike the tumor growth in WAG rats with normal expression of arginine-vasopressin gene. In the tumor implanted into Brattleboro rats the immune proteasome level was maximal between days 14 and 17, when the tumor underwent regression. Conversely, the expression of proteasome regulators tended to decrease during this period. Immune proteasomes are known to produce antigen epitopes for MHC class I to be presented to CD8+ T lymphocytes. Enhanced expression of immune proteasomes coincided with the recovery of MHC class I expression, suggesting the efficient presentation of tumor antigens in Brattleboro rats.

Exclusion of immune proteasomes from mouse ascitic carcinoma Krebs-II cells

Pools of 26S and 20S proteasomes were studied in the spleen, liver, lung, and ascitic carcinoma Krebs-II of mouse. Western blotting demonstrated that the pool of 26S proteasomes in ascitic carcinoma Krebs-II was twice that in control lung cells and did not significantly differ by total 26S proteasome quantities from the spleen and liver. At the same time, the level of immune subunit LMP7 was 12 times lower in it compared to lung proteasomes and 4–5 times lower compared to spleen and liver proteasomes. Immune subunit LMP2 was undetectable by this technique in the ascitic carcinoma in contrast to the lung, spleen, and liver. All immune subunits in the studied organs and ascitic carcinoma Krebs-II are components of 26S but not 20S proteasomes.

Immune proteasomes in the development of the rat immune system

The dynamics of the expression of LMP7 and LMP2 proteasome subunits during embryonic and early postnatal development of rat spleen and liver was studied in comparison with the dynamics of chymotrypsin-like and caspase-like proteasome activities and expression of MHC (major histocompatibility complex) class I molecules. The distribution of LMP7 and LMP2 immune subunits in spleen and liver cells was also evaluated throughout development. The common tendency of both organs to increase the expression of both LMP7 and LMP2 subunits on the 21st postnatal day (P21) was found. However, the total proteasome level was shown to be constant. At certain developmental stages, the dynamics of immune subunits expression in the spleen and liver was different. While the gradual enhancement of both immune subunits was observed on P1, P18 and P21 in the spleen, the periods of gradual increase observed on E16 (the 16th embryonic day) and E18 gave way to a period of decrease in immune subunits on P5 in the liver. This level did not reliably change until P18 and increased on P21. The revealed changes were accompanied by an increase in chymotrypsin-like activity and a decrease in caspase-like activity in the spleen at P21 compared to the embryonic period. This indicates the increase in proteasome ability to form antigenic epitopes for MHC class I molecules. In the liver, both activities increased compared to the embryonic period by P21. The dynamics of caspase-like activity can be explained not only by the change of proteolytic constitutive and immune subunits, but also by additional regulatory mechanisms. Moreover, it was discovered that the increase in the expression of immune subunits during early spleen development is associated with the process of formation of white pulp by B- and T-lymphocytes enriched with immune subunits. In the liver, the increase in the level of immune subunits by P21 was also accompanied by an increase of their expression in hepatocytes. While the decrease of their level by P5 may be associated with the fact that the liver has lost its function as the primary lymphoid organ in the immune system by this time, as well as with the disappearance of B-lymphocytes enriched with immune proteasomes. In the spleen and the liver, MHC class I molecules were found during the periods of increased levels of proteasome immune subunits. On E21, the liver was enriched with neuronal nitric oxide synthase (nNOS); the level of nNOS decreased after birth and then increased by P18. This fact indicates the possibility of the induction of expression of the LMP7 and LMP2 immune subunits in hepatocytes via a signaling pathway involving nNOS. These results indicate that compared to the rat liver cells, splenic T cell immune response develops in rats starting around P19–P21. First, a T-area of white pulp is formed in the spleen during this period. Second, an increased level of immune proteasomes and MHC class I molecules in hepatocytes can ensure the formation of antigenic epitopes from foreign proteins and their delivery to the cell surface for subsequent presentation to cytotoxic T-lymphocytes.

Peculiarities of proteasome pool formation in rat spleen and liver during postnatal development.

Changes in the specific activity and amounts of 26S and 20S proteasome pools in rat spleen and liver during postnatal development and appearance in them of immune subunits were studied. Two decreases in chymotrypsin-like activity of the proteasome pools were recorded during the first three weeks after birth. The activity minimums fell on the 11th and 19th days, and the first decrease was more prolonged and pronounced than the second. The decrease in the specific activity of the 26S proteasome pools was associated with a reduction of their quantity. The 20S proteasome pools displayed no such decreases. Noticeable quantities of immune subunits LMP7 and LMP2 were revealed by Western blotting in the spleen on the 7th day and on the 19th day in the liver, concurrently with the beginning of the decrease in the proteasome activity. It was concluded that during the first three weeks of postnatal development the proteasome pools in rat spleen and liver were replaced twice, and in the spleen (a lymphoid organ) a qualitatively new pool containing immune subunits appeared nearly two weeks earlier than in the liver (a non-lymphoid organ). The appearance of immune proteasomes in different organs and tissues during some weeks after birth seems to explain the immune system inefficiency during embryogenesis and early postnatal development.

Changes in Proteasome Activity and Subunit Composition during Postnatal Development of Rat

The dynamics of the activities of 26S and 20S proteasomes in the rat liver and spleen have been studied during postnatal development from 1 to 90 days. The activities of proteasome forms both in spleen and in liver increased in adult animals as compared to one day rats. The activities of both proteasome forms in the liver did not differ significantly from those in the spleen at all stages of postnatal development. Using Western blot with monoclonal antibodies to Rpt6 subunit, we confirmed the presence of 26S proteasome in both organs at all stages of postnatal development. Studies with polyclonal antibodies to β1i (LMP2) subunit showed the appearance of the immune subunit in the spleen by day 9 and in the liver only by day 23 of postnatal development. This result suggests the earlier formation of the spleen as an organ with immune functions.

Interplay between recombinant Hsp70 and proteasomes: proteasome activity modulation and ubiquitin-independent cleavage of Hsp70

The heat shock protein 70 (Hsp70, human HSPA1A) plays indispensable roles in cellular stress responses and protein quality control (PQC). In the framework of PQC, it cooperates with the ubiquitin-proteasome system (UPS) to clear damaged and dysfunctional proteins in the cell. Moreover, Hsp70 itself is rapidly degraded following the recovery from stress. It was demonstrated that its fast turnover is mediated via ubiquitination and subsequent degradation by the 26S proteasome. At the same time, the effect of Hsp70 on the functional state of proteasomes has been insufficiently investigated. Here, we characterized the direct effect of recombinant Hsp70 on the activity of 20S and 26S proteasomes and studied Hsp70 degradation by the 20S proteasome in vitro. We have shown that the activity of purified 20S proteasomes is decreased following incubation with recombinant human Hsp70. On the other hand, high concentrations of Hsp70 activated 26S proteasomes. Finally, we obtained evidence that in addition to previously reported ubiquitin-dependent degradation, Hsp70 could be cleaved independent of ubiquitination by the 20S proteasome. The results obtained reveal novel aspects of the interplay between Hsp70 and proteasomes.

Changes in the proteasome function after induction of donor-specific tolerance in rats with ovarian allograft

Induction of donor-specific tolerance in a recipient is one of the methods for enhancing acceptance of the grafts of endocrine glands in the absence of immunodepressants, which interfere with hormone production. This paper describes changes in the proteasome pool in the rat liver, spleen, and graft during the development of donor-specific tolerance after intraportally infusing the recipient with donor splenocytes with subsequent allografting of ovarian tissue into the renal capsule. It has been demonstrated that the shift in the balance in the liver and graft proteasome pools towards the variants with the LMP2 subunit determines the development of immunological tolerance and graft retention. On the contrary, an increase in the forms with the LMP7 subunit induces the immune response and graft rejection.

Changes in proteasome pool in human papillary thyroid carcinoma development

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.