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      Regulation of PCSK9 Expression and Function: Mechanisms and Therapeutic Implications

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          Abstract

          Proprotein convertase subtilisin/kexin type 9 (PCSK9) promotes degradation of low-density lipoprotein receptor (LDLR) and plays a central role in regulating plasma levels of LDL cholesterol levels, lipoprotein(a) and triglyceride-rich lipoproteins, increasing the risk of cardiovascular disease. Additionally, PCSK9 promotes degradation of major histocompatibility protein class I and reduces intratumoral infiltration of cytotoxic T cells. Inhibition of PCSK9 increases expression of LDLR, thereby reducing plasma levels of lipoproteins and the risk of cardiovascular disease. PCSK9 inhibition also increases cell surface levels of major histocompatibility protein class I in cancer cells and suppresses tumor growth. Therefore, PCSK9 plays a vital role in the pathogenesis of cardiovascular disease and cancer, the top two causes of morbidity and mortality worldwide. Monoclonal anti-PCSK9 antibody-based therapy is currently the only available treatment that can effectively reduce plasma LDL-C levels and suppress tumor growth. However, high expenses limit their widespread use. PCSK9 promotes lysosomal degradation of its substrates, but the detailed molecular mechanism by which PCSK9 promotes degradation of its substrates is not completely understood, impeding the development of more cost-effective alternative strategies to inhibit PCSK9. Here, we review our current understanding of PCSK9 and focus on the regulation of its expression and functions.

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          Expression profiling reveals off-target gene regulation by RNAi.

          Aimee Jackson, Steven Bartz, Janell M Schelter (2003)
          RNA interference is thought to require near-identity between the small interfering RNA (siRNA) and its cognate mRNA. Here, we used gene expression profiling to characterize the specificity of gene silencing by siRNAs in cultured human cells. Transcript profiles revealed siRNA-specific rather than target-specific signatures, including direct silencing of nontargeted genes containing as few as eleven contiguous nucleotides of identity to the siRNA. These results demonstrate that siRNAs may cross-react with targets of limited sequence similarity.
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            Antigen presentation in cancer: insights into tumour immunogenicity and immune evasion

            Suchit Jhunjhunwala, Christian Hammer, Lélia Delamarre (2021)
            Immune checkpoint blockade, which blocks inhibitory signals of T cell activation, has shown tremendous success in treating cancer, although success still remains limited to a fraction of patients. To date, clinically effective CD8+ T cell responses appear to target predominantly antigens derived from tumour-specific mutations that accumulate in cancer, also called neoantigens. Tumour antigens are displayed on the surface of cells by class I human leukocyte antigens (HLA-I). To elicit an effective antitumour response, antigen presentation has to be successful at two distinct events: first, cancer antigens have to be taken up by dendritic cells (DCs) and cross-presented for CD8+ T cell priming. Second, the antigens have to be directly presented by the tumour for recognition by primed CD8+ T cells and killing. Tumours exploit multiple escape mechanisms to evade immune recognition at both of these steps. Here, we review the tumour-derived factors modulating DC function, and we summarize evidence of immune evasion by means of quantitative modulation or qualitative alteration of the antigen repertoire presented on tumours. These mechanisms include modulation of antigen expression, HLA-I surface levels, alterations in the antigen processing and presentation machinery in tumour cells. Lastly, as complete abrogation of antigen presentation can lead to natural killer (NK) cell-mediated tumour killing, we also discuss how tumours can harbour antigen presentation defects and still evade NK cell recognition.
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              Mutations in PCSK9 cause autosomal dominant hypercholesterolemia.

              Marianne Abifadel, Mathilde Varret, Jean-Pierre Rabès (2003)
              Autosomal dominant hypercholesterolemia (ADH; OMIM144400), a risk factor for coronary heart disease, is characterized by an increase in low-density lipoprotein cholesterol levels that is associated with mutations in the genes LDLR (encoding low-density lipoprotein receptor) or APOB (encoding apolipoprotein B). We mapped a third locus associated with ADH, HCHOLA3 at 1p32, and now report two mutations in the gene PCSK9 (encoding proprotein convertase subtilisin/kexin type 9) that cause ADH. PCSK9 encodes NARC-1 (neural apoptosis regulated convertase), a newly identified human subtilase that is highly expressed in the liver and contributes to cholesterol homeostasis.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Cardiovasc Med
                Journal ID (iso-abbrev): Front Cardiovasc Med
                Journal ID (publisher-id): Front. Cardiovasc. Med.
                Title: Frontiers in Cardiovascular Medicine
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 2297-055X
                Publication date (Electronic): 15 October 2021
                Publication date Collection: 2021
                Volume: 8
                Electronic Location Identifier: 764038
                Affiliations
                [1] 1Department of Orthopedics, The Sixth Affiliated Hospital of Guangzhou Medical University, Qingyuan People's Hospital , Qingyuan, China
                [2] 2School of Economics, Management and Law, University of South China , Hengyang, China
                [3] 3Group on the Molecular and Cell Biology of Lipids, Department of Pediatrics, Faculty of Medicine and Dentistry, University of Alberta , Edmonton, AB, Canada
                Author notes

                Edited by: Yiliang Chen, Medical College of Wisconsin, United States

                Reviewed by: Fang Li, Columbia University Irving Medical Center, United States; Daisy Sahoo, Medical College of Wisconsin, United States

                *Correspondence: Gui-qing Wang dzhang@ 123456ualberta.ca

                This article was submitted to Lipids in Cardiovascular Disease, a section of the journal Frontiers in Cardiovascular Medicine

                †These authors have contributed equally to this work

                Article
                DOI: 10.3389/fcvm.2021.764038
                PMC ID: 8589637
                PubMed ID: 34782856
                SO-VID: 3f8fe232-0b5f-4d9d-9c02-9ae181d7e2e3
                Copyright © Copyright © 2021 Xia, Peng, Gu, Wang, Wang and Zhang.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 24 August 2021
                Date accepted : 16 September 2021
                Page count
                Figures: 2, Tables: 1, Equations: 0, References: 120, Pages: 13, Words: 10871
                Funding
                Funded by: Natural Sciences and Engineering Research Council of Canada, doi 10.13039/501100000038;
                Funded by: Canadian Institutes of Health Research, doi 10.13039/501100000024;
                Categories
                Subject: Cardiovascular Medicine
                Subject: Review

                Keywords: lipid metabolism,cardiovascular disease,atherosclerosis,cancer immunotherapy,pcsk9,ldl receptor,major histocompatibility protein class i
                Data availability:
                Keywords: lipid metabolism, cardiovascular disease, atherosclerosis, cancer immunotherapy, pcsk9, ldl receptor, major histocompatibility protein class i

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