Monoclonal antibody therapies against SARS-CoV-2.

Monoclonal antibodies (mAbs) targeting the spike protein of SARS-CoV-2 have been widely used in the ongoing COVID-19 pandemic. In this paper, we review the properties of mAbs and their effect as therapeutics in the pandemic, including structural classification, outcomes in clinical trials that led to the authorisation of mAbs, and baseline and treatment-emergent immune escape. We show how the omicron (B.1.1.529) variant of concern has reset treatment strategies so far, discuss future developments that could lead to improved outcomes, and report the intrinsic limitations of using mAbs as therapeutic agents.

Investigating a Signal of Acquired Hemophilia Associated with COVID-19 Vaccination: A Systematic Case Review.

Acquired hemophilia A (AHA), a rare but life-threatening disorder, most commonly occurs in older people and during pregnancy. During the coronavirus disease 2019 (COVID-19) vaccination campaign, an unexpected number of newly diagnosed AHA patients have been identified in clinical practice that were temporally related to COVID-19 vaccination. We present the result of a signal detection analysis aimed at exploring a possible association between COVID-19 immunization and occurrence of AHA. A disproportionality analysis on the World Health Organization (WHO) database was performed to investigate the presence of a signal of risk for AHA associated with COVID-19 vaccines. Reports of AHA associated with any COVID-19 vaccine included in the WHO database were then integrated with those available on the Food and Drug Administration Vaccine Adverse Events Reporting System and those published in the medical literature. The WHO database included 146 reports of AHA. The information component (IC) was significant for the association of AHA with all COVID-19 vaccines (IC025: 1.1) and with the vaccine product BNT162b2 (IC025: 1.6). After duplicate exclusion, 96 unique cases of AHA following COVID-19 vaccines have been reviewed. Median time to diagnosis was 18 days and 40% of cases documented the occurrence after the second dose. Overall, in 57% of the investigated cases, a preexisting condition predisposing to AHA was excluded. About 22% of cases occurred in subjects with age ≤65 years and there was no case associated with pregnancy. Mortality was 11%. Although we cannot exclude that the unexpected frequency of AHA diagnosis can be explained by a detection bias, the signal for COVID-19 vaccine-related AHA is robust and deserves further investigations.

Tixagevimab + cilgavimab against SARS-CoV-2: the preclinical and clinical development and real-world evidence.

INTRODUCTION: Direct-acting SARS-CoV-2 antiviral monoclonal antibodies have been an integral part of therapeutic strategies against COVID-19 pandemic. The monoclonal strategy was jeopardized by the emergence of new variants and resistant strains, making many monoclonal antibodies quickly obsolete. Nevertheless, a possible strategy consists in the use of antibody cocktails and the development of the cilgavimab + tixagevimab in combination is placed in this context. AREAS COVERED: In this review, we describe the development of the cilgavimab + tixagevimab cocktail, from pre-clinical to real-world evidence. EXPERT OPINION: The pre-clinical and clinical development of cilgavimab + tixagevimab followed a similar path to that of the antibodies developed in the earlier stages of the pandemic. Both antibodies have been developed from convalescent plasma and have been shown to be effective in clinical trials in prophylaxis and in early therapy. This cocktail has found its position in therapy especially in immunocompromised subjects for whom vaccine prevention is not feasible. The cocktail strategy, together with a more stable pandemic situation, could ensure a certain longevity to the drug against resistance, especially when compared with that of other antibodies. Recently emerged Omicron sub-lineages have demonstrated the ability to escape this cocktail's activity and so the future of this treatment could be compromised.

Preclinical discovery and development of the casirivimab + imdevimab cocktail for the treatment of novel coronavirus infection: the rise and fall.

INTRODUCTION: The ongoing COVID19 pandemic represents an unprecedented opportunity to test the feasibility of monoclonal antibody (mAb) therapies against respiratory viruses. While many hurdles were easily predictable (e.g. time to develop, scalability, and economic sustainability), mAb cocktails (i.e. the combination of two mAbs) were finally deployed in 2021, one year after the beginning of the pandemic. Of them, the REGN-COV-2 cocktail was likely the most successful experience and contributed at saving lives at the time of the wave sustained by the Delta variant of concern (VOC). AREAS COVERED: Herein, the authors review the preclinical and clinical history of the casirivimab + imdevimab cocktail for the treatment of novel coronavirus infection. The authors furthermore provide the reader with their perspectives on this cocktail including its current place in the treatment armamentarium. EXPERT OPINION: Unfortunately, results from clinical trials highlighted a very limited efficacy in inpatients; furthermore, the current evidence with regards to its lack of effectiveness against the current dominant VOC (omicron) suggests a very limited use of these drugs in the future. In the authors' opinion, this story reminds us of the limitations of mAb therapies in pandemic settings, and of the inferiority of monoclonal versus polyclonal antibody-based therapeutics in such scenarios.

The Impact of the COVID-19 "Infodemic" on Drug-Utilization Behaviors: Implications for Pharmacovigilance.

The coronavirus disease 2019 (COVID-19) pandemic that hit the world in 2020 triggered a massive dissemination of information (an "infodemic") about the disease that was channeled through the print, broadcast, web, and social media. This infodemic also included sensational and distorted information about drugs that likely first influenced opinion leaders and people particularly active on social media and then other people, thus affecting choices by individual patients everywhere. In particular, information has spread about some drugs approved for other indications (chloroquine, hydroxychloroquine, nonsteroidal anti-inflammatory drugs, angiotensin-converting enzyme inhibitors, angiotensin II receptor antagonists, favipiravir, and umifenovir) that could have led to inappropriate and therefore hazardous use. In this article, we analyze the rationale behind the claims for use of these drugs in COVID-19, the communication about their effects on the disease, the consequences of this communication on people's behavior, and the responses of some influential regulatory authorities in an attempt to minimize the actual or potential risks arising from this behavior. Finally, we discuss the role of pharmacovigilance stakeholders in emergency management and possible strategies to deal with other similar crises in the future.

An overview of the preclinical discovery and development of bamlanivimab for the treatment of novel coronavirus infection (COVID-19): reasons for limited clinical use and lessons for the future.

Introduction: In the COVID-19 pandemic emergency, research has been oriented toward the development of therapies that could cure critically ill patients and treatments that can reduce the number of hospitalized patients, in order to ease the pressure on health-care systems. Bamlanivimab, developed from human convalescent plasma, was the first monoclonal antibody to become available for emergency use in several countries. Expectations related to its use in COVID-19 patients as a single agent have been largely disregarded, especially against E484K-carrying SARS-CoV-2 variants.Areas covered: In this drug discovery case history, the development of the drug is described starting from the identification and selection of the antibody, from the pre-clinical and clinical trials up to the post-authorization phase.Expert opinion: Bamlanivimab has shown some efficacy in patients with mild to moderate COVID-19. Initially approved as a monotherapy, due to poor efficacy it is currently only usable in combination with etesevimab. Pharmacokinetic limitations and mainly the onset of SARS-CoV-2 variants are the main reasons for this limited clinical use. The use in preventing hospitalization also has ethical limits related to the sustainability of care, especially if, considering similar effectiveness, bamlanivimab is compared with convalescent plasma.

Anti-SARS-CoV-2 neutralizing monoclonal antibodies: clinical pipeline.

Monoclonal antibody (mAb) therapy has been previously exploited for viral infections, such as respiratory syncytial virus pneumonia and Ebolavirus disease. In the ongoing COVID-19 pandemic, early signals of efficacy from convalescent plasma therapy have encouraged research and development of anti-SARS-CoV-2 mAbs. While many candidates are in preclinical development, we focus here on anti-SARS-CoV-2 neutralizing mAbs (or mAb cocktails) that represent the late-stage clinical pipeline, i.e., those currently in Phase 2 or Phase 3 clinical trials. We describe the structure, mechanism of action, and ongoing trials for VIR-7831, LY-CoV555, LY-CoV016, BGB-DXP593, REGN-COV2, and CT-P59. We speculate also on the next generation of these mAbs.

Exploring pharmacological approaches for managing cytokine storm associated with pneumonia and acute respiratory distress syndrome in COVID-19 patients.

Sars-CoV-2 complications include pneumonia and acute respiratory distress syndrome (ARDS), which require intensive care unit admission. These conditions have rapidly overwhelmed healthcare systems, with detrimental effects on the quality of care and increased mortality. Social isolation strategies have been implemented worldwide with the aim of reducing hospital pressure. Among therapeutic strategies, the use of immunomodulating drugs, to improve prognosis, seems promising. Particularly, since pneumonia and ARDS are associated with a cytokine storm, drugs belonging to therapeutic classes as anti-IL-6, anti-TNF, and JAK inhibitors are currently studied. In this article, we discuss the potential advantages of the most promising pharmacological approaches.