蛋白酶体结构和活性调节机制的研究进展

蛋白酶体负责细胞内绝大多数蛋白质的降解,几乎对生物体所有的生命活动都具有调控作用.蛋白酶体功能异常能够导致很多疾病.近期,研究者们在蛋白酶体的结构分析和活性调节机制等方面的研究都获得了重要的突破.本文综述了有关蛋白酶体结构和活性调控机制,包括转录调控、翻译后修饰、组装机制等的研究进展,这些对蛋白酶体新的认识将为蛋白酶体相关疾病的研究及相应药物的开发带来新的思路.对于目前蛋白酶体抑制剂的研发本文也做了简要的介绍.     

Proteasome activity in tumors of the female reproductive system

Although proteasomes (multiproteinase protein complexes) are known to play an important role in cancer pathogenesis, there is little information about their activity in human tumor tissues. The chymotrypsin-like activity of proteasomes in breast cancer (BC) and endometrial cancer (EC) tissues was studied. It was shown that the chymotrypsin-like total proteasome activity and the 20S and 26S proteasome pool activities were significantly higher in malignant than in normal tissues. An increase in the size of either BC or EC tumors did not affect the proteasome activity, whereas the propagation of a malignant process did. If compared with BC non-metastatic tumors, a reliable decrease in the total activity and the 26S proteasome activity was observed in BC tumors with regional lymph node metastases. In EC tissues, the total proteasome activity and the 20S and 26S proteasome pool activities increased when the depth of tumor myometrial invasion grew. These data demonstrated that the proteasome activity significantly varied in the process of carcinogenesis. Further proteasome studies could serve as the basis for the development of new criteria for prognosis of female reproductive system cancer and the search for effective antitumor agents in targeted therapy.     

The capture proteasome assay: A method to measure proteasome activity in vitro

Because of its crucial role in various cellular processes, the proteasome is the focus of intensive research for the development of proteasome inhibitors to treat cancer and autoimmune diseases. Here, we describe a new and easy assay to measure the different proteasome activities in vitro (chymotrypsin-like, caspase-like, and trypsin-like) based on proteasome capture on antibody-coated plates, namely the capture proteasome assay (CAPA). Applying the CAPA to lysates from cells expressing standard proteasome, immunoproteasome, or intermediate proteasomes β5i or β1i–β5i, we can monitor the activity of the four proteasome subtypes. The CAPA provided similar results as the standard whole-cell proteasome–Glo assay without the problem of contaminating proteases requiring inhibitors. However, the profile of trypsin-like activity differed between the two assays. This could be partly explained by the presence of MgSO₄ in the proteasome–Glo buffer, which inhibits the trypsin-like activity of the proteasome. The CAPA does not need MgSO₄ and, therefore, provides a more precise measurement of the trypsin-like activity. The CAPA provides a quick and accurate method to measure proteasome activity in vitro in a very specific manner and should be useful for the development of proteasome inhibitors.     

ASK1 Negatively Regulates the 26 S Proteasome

The 26 S proteasome, composed of the 20 S core and 19 S regulatory particle, plays a central role in ubiquitin-dependent proteolysis. Disruption of this process contributes to the pathogenesis of the various diseases; however, the mechanisms underlying the regulation of 26 S proteasome activity remain elusive. Here, cell culture experiments and in vitro assays demonstrated that apoptosis signal-regulating kinase 1 (ASK1), a member of the MAPK kinase kinase family, negatively regulated 26 S proteasome activity. Immunoprecipitation/Western blot analyses revealed that ASK1 did not interact with 20 S catalytic core but did interact with ATPases making up the 19 S particle, which is responsible for recognizing polyubiquitinated proteins, unfolding them, and translocating them into the 20 S catalytic core in an ATP-dependent process. Importantly, ASK1 phosphorylated Rpt5, an AAA ATPase of the 19 S proteasome, and inhibited its ATPase activity, an effect that may underlie the ability of ASK1 to inhibit 26 S proteasome activity. The current findings point to a novel role for ASK1 in the regulation of 26 S proteasome and offer new strategies for treating human diseases caused by proteasome malfunction.     

New betulinic acid derivatives as potent proteasome inhibitors

In this study, 22 new betulinic acid (BA) derivatives were synthesized and tested for their inhibition of the chymotrypsin-like activity of 20S proteasome. From the SAR study, we concluded that the C-3 and C-30 positions are the pharmacophores for increasing the proteasome inhibition effects, and larger lipophilic or aromatic side chains are favored at these positions. Among the BA derivatives tested, compounds 13, 20, and 21 showed the best proteasome inhibition activity with IC(50) values of 1.42, 1.56, and 1.80 μM, respectively, which are three to fourfold more potent than the proteasome inhibition controls LLM-F and lactacystin.     

Vinyl ester-based cyclic peptide proteasome inhibitors

The 20S proteasome is a multicatalytic protease complex responsible for the degradation of many proteins in mammalian cells. Specific inhibition of proteasome enzymatic subunits represents a topic of great interest for the development of new drug therapies. Following our previous development of a new class of peptide-based inhibitors bearing a C-terminal vinyl ester residue as a pharmacophoric unit that are able to interact with the catalytic threonine, we report here the synthesis and biological properties of a new series of vinyl ester cyclopeptide analogues. Some of these derivatives were shown to inhibit the chymotrypsin-like activity of the proteasome at nanomolar concentration and their potency was found to depend on the size of the tetrapeptidic cyclic portion.     

Proteasome activity in tumors of female reproductive system

Proteasomes (multiproteinase protein complexes) are known to play an important role in cancer pathogenesis, however, few information about their activity in human tumor tissues is available so far. We studied chymotrypsin-like activity of proteasomes in tissues of breast cancer (BC) and endometrial cancer (EC). The chymotrypsin-like total proteasome activity and the 20S and 26S proteasome activity in malignant tissues were shown to be significantly higher in malignant tumors than in normal tissues. No increase in proteasome activity was registered with larger tumor size in both BC and EC, whereas proteasome activity was changed with respect to the extent of tumor involvement. In breast cancer tissues, significant reductions in the total and the 26S proteaome activities were observed in tumors with regional lymph node metastases as compared to tumors without metastases. In endometrial cancer tissues, the total proteasome activity and the 20S and 26S proteasome activities were increased as the depth of myometrial invasion. The data obtained indicate that the proteasome acyivity is significantly changed in the process of cancerogenesis and further study is needed to develop new additional prognostic criteria and effective anti-tumor agents in molecular-directed therapy.     

Intrinsic nucleoside diphosphate kinase-like activity is a novel function of the 20 S proteasome

The eukaryotic 20 S proteasome is the prototype of a new family of the N-terminal nucleophil hydrolases and is composed of numerous low molecular mass subunits arranged in a stack of four rings, each containing seven different alpha- or beta-subunits. Among the beta-type subunits in the yeast proteasome, three proteolytically active ones were identified, although the functions of the other beta- and alpha-type subunits remain to be clarified. We report here that the purified 20 S proteasome exhibits intrinsic nucleoside diphosphate (NDP) kinase-like activity. The proteasome exhibited a preference for ATP and dATP as phosphate donors, and a broad specificity for NDPs, other than GDP, as phosphate acceptors, unlike conventional NDP kinase, which catalyzes the transfer of gamma-phosphate between NDPs and nucleoside triphosphates. During the transfer of gamma-phosphate, the proteasome formed acid-labile phosphohistidine as autophosphorylated intermediates, and NDP-dependent dephosphorylation of the latter then occurred. These enzymatic properties are similar to those of the molecular chaperone, Hsp70, which also exhibits intrinsic NDP kinase-like activity, instead of ATPase activity. C5 among the beta-type subunits and C8 among the alpha-type subunits were autophosphorylated during the gamma-phosphate transfer reaction and were photoaffinity labeled with 8-azido-[alpha-(32)P]ATP, suggesting that the C5 and C8 subunits of the proteasome are responsible for the NDP kinase-like activity.     

Inhibition of 26S proteasome activity by huntingtin filaments but not inclusion bodies isolated from mouse and human brain

In Huntington's disease (HD), as in the rest of CAG triplet-repeat disorders, the expanded polyglutamine (polyQ)-containing proteins form intraneuronal fibrillar aggregates that are gathered into inclusion bodies (IBs). Since IBs contain ubiquitin and proteasome subunits, it was proposed that inhibition of proteasome activity might underlie pathogenesis of polyQ disorders. Recent in vitro enzymatic studies revealed the inability of eukaryotic proteasomes to digest expanded polyQ, thus suggesting that occasional failure of polyQ to exit the proteasome may interfere with its proteolytic function. However, it has also recently been found that in vitro assembled aggregates made of synthetic polyQ fail to inhibit proteasome activity. Because synthetic polyQ aggregates lack the post-translational modifications found inside affected neurons, such as poly ubiquitylation, we decided to study the effect of mutant huntingtin (htt) aggregates isolated from the Tet/HD94 mouse model and from human HD brain tissue. Here, we show that isolated ubiquitylated filamentous htt aggregates, extracted from IBs by a previously reported method, selectively inhibited the in vitro peptidase activity of the 26S but not of the 20S proteasome in a non-competitive manner. In good agreement, immuno-electron microscopy revealed a direct interaction of htt filaments with the 19S ubiquitin-interacting regulatory caps of the 26S proteasome. Here, we also report a new method for isolation of IBs based on magnetic sorting. Interestingly, isolated IBs did not modify proteasome activity. Our results therefore show that mutant htt filamentous aggregates can inhibit proteasome activity, but only when not recruited into IBs, thus strengthening the notion that IB formation is protective by neutralizing toxicity of dispersed filamentous htt aggregates.     

Image-based screening for the identification of novel proteasome inhibitors

The proteasome is a new, interesting target in cancer drug therapy, and the proteasome inhibitor bortezomib has shown an effect in myeloma patients. It is of interest to efficiently discover and evaluate new proteasome inhibitors. The authors describe the development of an image-based screening assay for the identification of compounds with proteasome-inhibiting activity. The stably transfected human embryo kidney cell line HEK 293 ZsGreen Proteasome Sensor Cell Line expressing the ZsProSensor-1 fusion protein was used for screening and evaluation of proteasome inhibitors. Inhibition of the proteasome leads to accumulation of the green fluorescent protein ZsGreen, which is measured in the ArrayScan High Content Screening system, in which cell morphology is studied simultaneously. When screening the LOPAC(1280) substance library, several compounds with effect on the proteasome were found; among the hits were disulfiram and ammonium pyrrolidinedithiocarbamate (PDTC). Cytotoxic analysis of disulfiram and PDTC showed that the compounds induced cytotoxicity in the myeloma cell line RPMI 8226. The average Z' value for the assay was 0.66. The results indicate that the assay rapidly identifies new proteasome-inhibiting substances, and it will be further used as a tool for image-based screening of other chemically diverse compound libraries.     

Stalled proteasomes are directly relieved by P97 recruitment

The 26 S proteasome is the eukaryotic protease responsible for the degradation of most cellular proteins. As such it accommodates the ability to function under diverse conditions that the cell may encounter. This function is supported by various adaptors that modulate various aspects in protein degradation, these include regulation of substrate delivery, deubiquitination, unfolding, and 20 S gate dilation. Here we show a new functional complex between the P97 and the proteasome that is assembled in response to proteasomal impairment. This entails P97 binding to the 26 S proteasome via the 19 S particle thereby forming an additional hexameric ATPase ring to relieve repression. P97-bound proteasomes showed selective binding toward the Npl4-ufd1 P97 co-factors, indicating a unique cellular role for P97 binding to proteasomes. P97-bound proteasomes display enhanced activity, showing a relief in proteolysis impairment. Our findings place P97 directly in non-ERAD proteasomal functions and establish a new checkpoint in UPS impairment. The ability to modulate proteasome activity and properly respond to protein misfolding, is of great importance in cellular regulation.     

Impaired proteasome function in Alzheimer's disease

Inhibition of proteasome activity is sufficient to induce neuron degeneration and death; however, altered proteasome activity in a neurodegenerative disorder has not been demonstrated. In the present study, we analyzed proteasome activity in short-postmortem-interval autopsied brains from 16 Alzheimer's disease (AD) and nine age- and sex-matched controls. A significant decrease in proteasome activity was observed in the hippocampus and parahippocampal gyrus (48%), superior and middle temporal gyri (38%), and inferior parietal lobule (28%) of AD patients compared with controls. In contrast, no significant decrease in proteasome activity was observed in either the occipital lobe or the cerebellum. The loss of proteasome activity was not associated with a decrease in proteasome expression, suggesting that the proteasome may become inhibited in AD by a posttranslational modification. Together, these data indicate a possible role for proteasome inhibition in the neurodegeneration associated with AD.     

Lactacystin augments the sulindac-induced apoptosis in HT-29 cells

The present study was conducted to explore the potential role of proteasome pathway in NSAIDs-induced apoptosis. We employed sulindac as a NSAID, and chose the lactacystin for inhibition of proteasome activity. Assessment of apoptosis and proteasome activity assay were undertaken. We demonstrated that sulindac treatment resulted in a decrease of proteasome activity, and that the co-treatment of a proteasome inhibitor lactacystin potentiated the extent of sulindac-induced apoptosis in HT-29 cells by augmentation of the decrease in proteasome activity. Elucidation of the mechanism underlying the regression of colon cancers by combinations of sulindac and lactacystin seems to be an immediate challenge for the near future.     

A769662, a novel activator of AMP-activated protein kinase, inhibits non-proteolytic components of the 26S proteasome by an AMPK-independent mechanism

In this work we present evidence that A769662, a novel activator of AMP-activated protein kinase (AMPK), is able to inhibit the function of the 26S proteasome by an AMPK-independent mechanism. Contrary to the mechanism of action of most proteasome inhibitors, A769662 does not affect the proteolytic activities of the 20S core subunit, defining in this way a novel mechanism of inhibition of 26S proteasome activity. Inhibition of proteasome activity by A769662 is reversible and leads to an arrest of cell cycle progression. These side effects of this new activator of AMPK should be taken into account when this compound is used as an alternative activator of the kinase.     

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 minimum 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.     

Crude and purified proteasome activity assays are affected by type of microplate

Measurement of proteasome activity is fast becoming a commonly used assay in many laboratories. The most common method to measure proteasome activity involves measuring the release of fluorescent tags from peptide substrates in black microplates. Comparisons of black plates used for measuring fluorescence with different properties show that the microplate properties significantly affect the measured activities of the proteasome. The microplate that gave the highest reading of trypsin-like activity of the purified 20S proteasome gave the lowest reading of chymotrypsin-like activity of the 20S proteasome. Plates with medium binding surfaces from two different companies showed an approximately 2-fold difference in caspase-like activity for purified 20S proteasomes. Even standard curves generated using free 7-amino-4-methylcoumarin (AMC) were affected by the microplate used. As such, significantly different proteasome activities, as measured in nmol AMC released/mg/min, were obtained for purified 20S proteasomes as well as crude heart and liver samples when using different microplates. The naturally occurring molecule betulinic acid activated the chymotrypsin-like proteasome activity in three different plates but did not affect the proteasome activity in the nonbinding surface microplate. These findings suggest that the type of proteasome activity being measured and sample type are important when selecting a microplate.     

Mechanistic Insights into the Enhancement of Adeno-Associated Virus Transduction by Proteasome Inhibitors

Proteasome inhibitors (e.g., bortezomib, MG132) are known to enhance adeno-associated virus (AAV) transduction; however, whether this results from pleotropic proteasome inhibition or off-target serine and/or cysteine protease inhibition remains unresolved. Here, we examined recombinant AAV (rAAV) effects of a new proteasome inhibitor, carfilzomib, which specifically inhibits chymotrypsin-like proteasome activity and no other proteases. We determined that proteasome inhibitors act on rAAV through proteasome inhibition and not serine or cysteine protease inhibition, likely through positive changes late in transduction.     

C-terminal trans,trans-muconic acid ethyl ester partial retro-inverso pseudopeptides as proteasome inhibitors

The development of specific inhibitors of the proteasome represents an important opportunity for new drug therapies. The central role of the multicatalytic complex in the intracellular proteolysis mediated by ubiquitin-proteasome pathway goes to discovery many molecules able to selectively inhibits enzymatic active subsites. Now, we report synthesis and activity of a new partial retro-inverso oligopseudopeptide derivatives bearing a trans,trans-muconic acid ethyl ester pharmacophoric unit at the C-terminal. Some analogues selectively inhibited in µM range the caspase-like (C-L) activity in the β1 subunit of the proteasome.