Cezary Wojcik scite author profile

Background and Purpose-Proteasomes are large multicatalytic proteinase complexes that are found in the cytosol and in the nucleus of eukaryotic cells with a central role in cellular protein turnover. The ubiquitin-proteasome system (UPS) has a central role in the selective degradation of intracellular proteins. Among the key proteins whose levels are modulated by the proteasome are those involved in the control of inflammatory processes, cell cycle regulation, and gene expression. There are now overwhelming data suggesting that the UPS contributes to cerebral ischemic injury. Summary of Review-Proteasome inhibition is a potential treatment option for stroke. Thus far, proof of principle has been obtained from studies in several animal models of cerebral ischemia. Treatment with proteasome inhibitors reduces effectively neuronal and astrocytic degeneration, cortical infarct volume, infarct neutrophil infiltration, and NF-B immunoreactivity with an extension of the neuroprotective effect at least 6 hours after ischemic insult. However, it is clear that the UPS represents a central pathway for the processing and metabolism of multiple proteins with critical roles in cellular function. To avoid eliciting significant side effects associated with complete inhibition of the proteasome and the possible immunosuppressive effects from persistent suppression of NF-B activation, it is critical that we understand how to partially and temporally attenuate proteasome function to elicit the desired therapeutic effect before any large-scale use in humans. Conclusion-This review highlights the most recent advances in our knowledge on UPS, as well as the early experience of using proteasome inhibition strategies to treat acute stroke.

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Lactacystin, a Specific Inhibitor of the Proteasome, Inhibits Human Platelet Lysosomal Cathepsin A-like Enzyme

Ostrowska

Wojcik

Ōmura

et al. 1997

Biochemical and Biophysical Research Communications

102

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Application of PCSK9 Inhibitors in Practice

Kaufman

Warden

Minnier

et al. 2019

Circulation Research

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Protein convertase subtilisin/kexin type 9 (PCSK9) inhibitors (PCSK9i) are set to revolutionize the treatment of hypercholesterolemia in the management of atherosclerotic risk, but numerous reports have detailed unprecedented barriers to access for these drugs. To overcome these challenges, our group created a model to facilitate provision of this new therapy for patients who qualify according to FDA criteria. This report details the real-world follow-up experience of PCSK9i use in a large patient cohort structured to ensure rigor in data collection, analysis, and interpretation. The 271 patients approved and actively followed in our PCSK9i clinic between July 2015 and August 2018 represent a 97% approval rate from insurance, with 28% of prescriptions requiring at least one appeal. Over 50% of patients were statin intolerant. On average, there was a median lapse of 15 days between initial visit and insurance approval. PCSK9i therapy was affordable for most patients, with an average monthly out-of-pocket expense of $58.05 (median $0). Only 2.3% of patients were unable to initiate or continue therapy due to cost. Reductions from baseline in LDL cholesterol and Lp(a) were comparable to published reports with median reductions of 60% and 23% at one year, respectively. PCSK9i therapy was well tolerated overall, though 9% of patients reported adverse events, and 5% of patients discontinued due mostly to musculoskeletal and flu-like symptoms. Our practice model demonstrates that PCSK9i therapy can be accessed easily and affordably for the majority of eligible patients, resulting in dramatic improvement in lipid profile results. Moreover, our registry data suggest that results from the prospective clinical trials of PCSK9i on LDL and Lp(a) reduction and on tolerability are applicable to a real-world cohort.

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Aggregate formation in the spinal cord of mutant SOD1 transgenic mice is reversible and mediated by proteasomes

Puttaparthi¹,

Wojcik

Rajendran³

et al. 2003

Journal of Neurochemistry

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Cu,Zn superoxide dismutase (SOD1) mutations cause one form of familial amyotrophic lateral sclerosis by a toxic gain of function that may be related to abnormal protein folding and aggregate formation. However, the processing pathways involved in SOD1 aggregate generation within spinal cord remain unclear. We have now developed an experimental system for studying SOD1 aggregate formation and clearance in intact spinal cord tissue. Here we demonstrate that the formation of SOD1-positive aggregates in G93A SOD1 transgenic mouse spinal cord tissue involves proteasomemediated proteolysis. Organotypic spinal cord slices from 9-day-old transgenic mice expressing G93A SOD1 develop SOD1 aggregates with proteasome inhibition. In contrast, SOD1 aggregates do not form in spinal cord slices from wild type mice or transgenic mice overexpressing wild type SOD1 following proteasome inhibition. Furthermore, SOD1 aggregate formation within G93A SOD1 spinal cord is both sensitive to small changes in overall proteasome activity and reversible with the restoration of proteasome function. Our results also establish that adult mouse spinal cord exhibits a relative deficiency in proteasome activity compared with non-CNS tissue that may help explain the propensity of spinal cord to form SOD1-positive aggregates.

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Proteasomes in human spermatozoa

et al. 2000

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In the present study we describe the localization of proteasomes in human spermatozoa by means of immunolabelling with different monoclonal and polyclonal antibodies detected by confocal microscopy. Western blotting confirmed the specificity of the antibodies and has shown that proteasomes are present in spermatozoa and in seminal fluid. In spermatozoa proteasomes are concentrated in the neck region where the centrioles are located. Some labelling was also detected at the periphery of the head, but no proteasomal antigens were detected in either the nucleus or associated with the flagellum. Proteasome inhibitors did not affect the motility of the spermatozoa, acrosome reaction nor zona binding. It is hypothesized that paternal proteasomes enter the oocyte during fertilization in tight association with the centrioles and may serve a special function during further development which can be associated with the function of a hypothetical proteolysis centre.

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Cezary Wojcik

Ubiquitin-Proteasome System and Proteasome Inhibition: New Strategies in Stroke Therapy

Lactacystin, a Specific Inhibitor of the Proteasome, Inhibits Human Platelet Lysosomal Cathepsin A-like Enzyme

Application of PCSK9 Inhibitors in Practice

Aggregate formation in the spinal cord of mutant SOD1 transgenic mice is reversible and mediated by proteasomes

Proteasomes in human spermatozoa

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