The SARS-CoV-2 Antibody and Drug Research Based on the Structure of the Spike Protein and the Mechanism of Cell Entry.

COVID-19 is a severe acute respiratory syndrome caused by a novel coronavirus, SARS-CoV- 2.COVID-19 is now a pandemic, and is not yet fully under control.As the surface spike protein (S) mediates the recognition between the virus and cell membrane and the process of cell entry, it plays an important role in the course of disease transmission.The study on the S protein not only elucidates the structure and function of virus-related proteins and explains their cellular entry mechanism, but also provides valuable information for the prevention, diagnosis and treatment of COVII)-19.Concentrated on the S protein of SARS-CoV-2, this review covers four aspects: (1 ) The structure of the S protein and its binding with angiotensin converting enzyme II (ACE2) , the specific receptor of SARS-CoV-2, is introduced in detail.Compared with SARS-CoV, the receptor binding domain (RBD) of the SARS-CoV- 2 S protein has a higher affinity with ACE2, while the affinity of the entire S protein is on the contrary.(2) Currently, the cell entry mechanism of SARS-CoV-2 meditated by the S protein is proposed to include endosomal and non-endosomal pathways.With the recognition and binding between the S protein and ACE2 or after cell entry, transmembrane protease serine 2(TMPRSS2) , lysosomal cathepsin or the furin enzyme can cleave S protein at S1/S2 cleavage site, facilitating the fusion between the virus and target membrane.(3) For the progress in SARS-CoV-2 S protein antibodies, a collection of significant antibodies are introduced and compared in the fields of the target, source and type.(4) Mechanisms of therapeutic treatments for SARS-CoV-2 varied.Though the antibody and medicine treatments related to the SARS-CoV-2 S protein are of high specificity and great efficacy, the mechanism, safety, applicability and stability of some agents are still unclear and need further assessment.Therefore, to curb the pandemic, researchers in all fields need more cooperation in the development of SARS-CoV-2 antibodies and medicines to face the great challenge.Copyright © Palaeogeography (Chinese Edition).All right reserved.

First-in-class small molecule drugs in 2022.

2022 is the third year of the global COVID-19 pandemic, and its troubles on new drug discovery are gradually apparent. 37 new drugs were approved by the FDA's Center for Drug Evaluation and Research (CDER) last year, down from the peak of 50 new drug approvals in 2021. Notably, first-in-class drugs still occupy a dominant position this year, with a total of 21 drugs. Among them, 7 are first-in-class small molecule drugs. Although the total number of new drug approvals in 2022 sharply decreased, some first-in-class small molecule drugs were regarded as significant, including mitapivat, the first oral activator targeting the pyruvate kinase (PK);mavacamten, the first selective allosteric inhibitor targeting the myocardial beta myosin ATPase;deucravacitinib, the first deuterated allosteric inhibitor targeting the tyrosine kinase 2 (TYK2);and lenacapavir, the first long-acting inhibitor targeting the HIV capsid. Generally, the research of first-in-class drugs needs to focus on difficult clinical problems and can treat some specific diseases through novel targets and biological mechanisms. There are tremendous challenges in the research processes of new drugs, including biological mechanism research, target selection, molecular screening, lead compound identification and druggability optimization. Therefore, the success of first-in-class drugs development has prominent guidance significance for new drug discovery. This review briefly describes the discovery background, research and development process and therapeutic application of 3 firstin- class small molecule drugs to provide research ideas and methods for more first-in-class drugs.Copyright © 2023, Chinese Pharmaceutical Association. All rights reserved.

Research progress of ulinastatin in treatment of COVID-19.

Coronavirus disease 2019 (COVID-19) is still spreading worldwide. At present, no specific drug has been developed for the virus. Ulinastatin plays an important role in anti-inflammatory. Clinically, it is mainly used in acute pancreatitis, shock and disseminated intravascular coagulation. It also has the effects of antioxidant stress, anticoagulation and immune regulation, which may be of great significance to reduce the severity and mortality of COVID-19. Combined with the pharmacological effect of ulinastatin and its clinical application in the treatment of COVID-19 complications such as acute respiratory distress syndrome and sepsis lung injury, this paper discusses the feasibility of its application in COVID-19, so as to provide help for the clinical treatment and new drug research and development of this disease.Copyright © 2022 Tianjin Press of Chinese Herbal Medicines. All Rights Reserved.

Research progress on drugs for the treatment of COVID-19

At present, coronavirus disease-19 (COVID-19) caused by novel coronavirus (SARS-CoV-2) has been spreading around the world, but no specific therapeutic drug or vaccine has been developed for the virus. By collecting the latest literature and searching related database websites, the biological characteristics and main targets of SARS-CoV-2, the clinical therapeu tic drugs and the latest drug research were reviewed to provide information for clinical treatment and provide reference for the research and development of new drugs against SARS-CoV-2.Copyright © 2020 Publication Centre of Anhui Medical University. All rights reserved.

Study on global R&D of anti-coronavirus 3CL protease inhibitors based on patent analysis.

3CL protease inhibitors has become the focus of the current research on anti-coronavirus drugs. The analysis of the patent information will help the research and innovation of such anti-coronavirus drugs. This paper analyzes the application trends of anti-coronavirus 3CL protease inhibitor-related patents, the distribution of regional status of patents, important applicants, patented technology themes, progress of key drug development and other factors. We also analyze the development of related patent technologies and aim to help domestic pharmaceutical enterprises carry out innovation and complete the strategic layout.Copyright © 2023 Chinese Journal of New Drugs Co. Ltd.. All rights reserved.

Progress on cross-species infection mechanism of 2019-nCoV and antiviral drug research.

2019-nCoV has a up to 96% homology with the gene sequence of a bat coronavirus. By comparing its 7 conserved non-structural proteins, it is found that 2019-nCoV belongs to SARS related coronaviruses(SARSr-CoV). The receptor for 2019-nCoV entering cells is the same as that for SARSr-CoV, and angiotensin-converting enzyme 2 (ACE2) is a common cross-genus receptor. This article first elaborates the interspecies transmission and genetic variation, then briefly discusses the receptors on the surface of human cells (such as ACE2 and APP4), which cause human infection and encode five proteins in the viral genome, therefore are important targets for development of antiviral drugs. The article reviews eight promising anti-coronavirus drugs, including three anti-HIV drugs (Lopinavir/Ritonavir, Danoprevir/Ritonavir, Darunavir), two anti-Ebola virus drugs (Remdesivir, Galidesivir), two anti-influenza virus drugs (Arbidol, Favipiravir) and one anti-malarial drug (chloroquine phosphate). Among them, Remdesivir, Abidol and Favipiravir have strong inhibitory effects on 2019-nCoV, they may be the most promising drugs under investigation.Copyright © 2020 by the Chinese Medical Association.

Progress on cross-species infection mechanism of 2019-nCoV and antiviral drug research.

2019-nCoV has a up to 96% homology with the gene sequence of a bat coronavirus. By comparing its 7 conserved non-structural proteins, it is found that 2019-nCoV belongs to SARS related coronaviruses(SARSr-CoV). The receptor for 2019-nCoV entering cells is the same as that for SARSr-CoV, and angiotensin-converting enzyme 2 (ACE2) is a common cross-genus receptor. This article first elaborates the interspecies transmission and genetic variation, then briefly discusses the receptors on the surface of human cells (such as ACE2 and APP4), which cause human infection and encode five proteins in the viral genome, therefore are important targets for development of antiviral drugs. The article reviews eight promising anti-coronavirus drugs, including three anti-HIV drugs (Lopinavir/Ritonavir, Danoprevir/Ritonavir, Darunavir), two anti-Ebola virus drugs (Remdesivir, Galidesivir), two anti-influenza virus drugs (Arbidol, Favipiravir) and one anti-malarial drug (chloroquine phosphate). Among them, Remdesivir, Abidol and Favipiravir have strong inhibitory effects on 2019-nCoV, they may be the most promising drugs under investigation.Copyright © 2020 by the Chinese Medical Association.

Progress on cross-species infection mechanism of 2019-nCoV and antiviral drug research.

2019-nCoV has a up to 96% homology with the gene sequence of a bat coronavirus. By comparing its 7 conserved non-structural proteins, it is found that 2019-nCoV belongs to SARS related coronaviruses(SARSr-CoV). The receptor for 2019-nCoV entering cells is the same as that for SARSr-CoV, and angiotensin-converting enzyme 2 (ACE2) is a common cross-genus receptor. This article first elaborates the interspecies transmission and genetic variation, then briefly discusses the receptors on the surface of human cells (such as ACE2 and APP4), which cause human infection and encode five proteins in the viral genome, therefore are important targets for development of antiviral drugs. The article reviews eight promising anti-coronavirus drugs, including three anti-HIV drugs (Lopinavir/Ritonavir, Danoprevir/Ritonavir, Darunavir), two anti-Ebola virus drugs (Remdesivir, Galidesivir), two anti-influenza virus drugs (Arbidol, Favipiravir) and one anti-malarial drug (chloroquine phosphate). Among them, Remdesivir, Abidol and Favipiravir have strong inhibitory effects on 2019-nCoV, they may be the most promising drugs under investigation.Copyright © 2020 by the Chinese Medical Association.

Applications of Artificial Intelligence and Big Data for Covid-19 Pandemic: A Review

More than 60,000 deaths have occurred since the COVID-19 outbreak in 2019. A very significant and far-reaching worldwide public health event. With the passage of time, all countries in the world are committed to controlling the development of the epidemic from all aspects to ensure the safety of people's lives and property and maintain social stability. Among many measures, the application of AI plays a very important role. This article reviews and analyzes the application of AI in diagnosing diseases, treating diseases, predicting epidemic outbreaks, drug research and development, telemedicine and other aspects during the epidemic, and discusses the advantages and disadvantages of AI in the process of its role in these fields. We believe that AI is in a period of booming development, we should efficiently use its advantages and actively prevent its possible drawbacks, and timely improve the problems that have been exposed. © 2022 ACM.

Hot and difficult issues related to prevention and control strategies of COVID-19.

The epidemic of COVID-19 has lasted for nearly a year, the number of confirmed cases worldwide is still rising, and the trend of the epidemic is unclear. How will be the further development of COVID-19 epidemic? What is the current status of research on new drugs for coronary virus disease? Will the vaccine currently used change the epidemic pattern? In the context of the normalization of the epidemic, whether the epidemiology of other respiratory viruses will change? This article will discuss and analyze these hot and difficult issues.Copyright © 2021 Chinese Medical Association

Progress on development of vaccines against 2019-nCoV.

Since the outbreak of COVID-19 caused by the 2019-nCoV (SARS-CoV-2), with its high pathogenicity and contagiousness, it has posed a serious threat to global public health security. Up to now, the pathogenesis of 2019-nCoV is unclear, and there is no effective treatment. Vaccine as one of the most effective strategies to prevent virus infection has become a hot area. Based on the current understanding of 2019-nCoV, the development of 2019-nCoV vaccines covers all types: inactivated virus vaccine, recombinant protein vaccine, viral vector-based vaccine, mRNA vaccine, and DNA vaccine, etc. In this review, we focus on the candidate targets of the novel coronavirus, and the types, development status and progress of 2019-nCoV vaccines in order to provide information for further research and prevention.Copyright © 2021 Chinese Medical Association

Research progress on action mechanism and preparation of monoclonal antibodies against 2019-nCoV.

During the treatment of critically ill COVID-19 patients it has been revealed that the neutralizing monoclonal antibodies against 2019-nCoV have the advantages of high specificity, high purity, and can be prepared in a large scale, which are expected to be a effective preparation for clinical use. This article introduces the way of 2019-nCoV invasion into the host cells, the major variants of novel coronavirus, and the mechanism of action of anti-2019-nCoV monoclonal antibodies, as well as the progress of research and development of their preparation in major pharmaceutical companies, to provide reference for scientific research and clinical application.Copyright © Chinese Journal of Clinical Infectious Diseases.All rights reserved.

COVID-19 Drug Treatment in China.

PURPOSE OF REVIEW: An unprecedented outbreak of the novel coronavirus in China (COVID-19) occurred in December 2019, and then engulfed the entire world, presenting a significant and urgent threat to global health. Many research institutes have been involved in the development of drugs and vaccines against COVID-19. RECENT FINDINGS: At present, the strategy of new use of old drugs is mainly used to screen candidate drugs against the novel coronavirus (later termed severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)) and inhibit excessive immune response. Related research has made great progress. SUMMARY: In this review, we summarize the drugs used for COVID-19 treatment in China based on the emerging basic and clinical data. It is hoped that this review will be useful to provide guidance for the prevention, treatment, and control of COVID-19.

"Drug Repurposing" Policies and Statutes: Lessons from the COVID-19 Pandemic:A Review

Introduction: Repurposed drugs are not eligible for patent protection in India vide Sec 3 (d) of the Indian Patent Act, 1970. The data generated to establish the therapeutic efficacy of the repurposed drugs for the new indication are not eligible for data exclusivity under the provisions of the Drugs and Cosmetic Act, 1940. However, repurposed drugs possess immense advantages, especially when compared to the traditional route of drug discovery. Marketing repurposed drugs is fraught with challenges, and means to overcome them need to be facilitated. Methodology: A review of literature regarding provisions available to protect repurposed candidates through various routes globally were studied including policies, special committee reports as well as case laws. Result(s): A brief tenure of data exclusivity for repurposed candidates as provided in statutes in the US and EU appears to be an attractive route of protection of such inventions. This will encourage and incentivize drug research by this route and eventually lead to a fulfillment of India being a preferred destination for not only pharma manufacturing, but also research. Copyright © Author (s) 2023.