Book Volume 9
The Place of Mature Drugs in COVID-19 Era
Page: 1-46 (46)
Author: Christian Pasquali*, Daniel Zingg*, Stefania Ballarini*, Giovanni A. Rossi and Hermann Haller
DOI: 10.2174/9789815179811123090003
PDF Price: $30
Abstract
COVID-19 infection, caused by the SARS-CoV-2 virus, is associated with
substantial morbidity and mortality. COVID-19 infection has three distinct phases: 1,
early infection phase; 2, pulmonary phase; and 3, the hyperinflammatory phase.
Despite a major focus on vaccines and new therapeutics, existing drugs sharing some
known mechanistic with this virus, have also gained interest. The potential positioning
of three mature innovative drugs, which could be of potential use in this pandemic
environment, is discussed in this chapter: OM-85 and calcium dobesilate, and their salt
form etamsylate, have revealed anti-viral and anti-inflammatory properties. OM-85, a
bacterial extract originating from 21 pathogenic strains isolated from human lungs and
indicated for the prevention of recurrent respiratory tract infections, stimulates both
innate and adaptive immunity, resulting in non-specific loco-regional immune
responses. It has shown anti-viral activity in a number of virus infection models,
including influenza H1N1, rhinovirus, and more recently, coronaviruses. It has also
shown some immunoregulatory properties. Accordingly, there is a rationale for further
investigations on OM-85 to be used as prophylaxis for other respiratory infections and
potentially in long-COVID. For calcium dobesilate, currently indicated for the
treatment of microvascular diseases while preserving microvascular integrity via
antioxidant and anti-inflammatory properties, there are cumulating data that could
promote its potential use for the treatment during phase 2 to protect the vascular
endothelium. Calcium dobesilate has anti-viral properties and was recently shown to
interfere with the SARS-CoV-2 spike-protein binding to the ACE2 receptor.
Accordingly, one could also postulate to use it during phase 1. Etamsylate, an antihaemorrhagic and antiangiogenic agent that improves platelet adhesiveness and
restores capillary resistance, is indicated for the prevention and treatment of capillary
haemorrhages. Considering its mechanism of action, etamsylate could be envisage for
use as potential treatment during phase 3 for viral-induced complications. Importantly, none of these afore mentioned drugs are currently approved for the prevention or
treatment of SARS-CoV-2 viral infection. Further, the conduction of well-designed
clinical trials is warranted.
Antivirals to Treat COVID-19
Page: 47-83 (37)
Author: Sayan Bhattacharyya*
DOI: 10.2174/9789815179811124090004
PDF Price: $30
Abstract
Introduction: COVID -19, caused by the novel coronavirus or SARS-CoV2, has claimed thousands of lives across the world as well as in India as of now. There are many antivirals available to treat COVID-19 at present. Some of them are safe and effective, while many others have been banned by the World Health Organization. Hence, it is very important for clinicians and nurses to know accurately and precisely about the safe and effective antivirals to treat COVID-19. Materials and methods: The purpose of this chapter is to address the issues with available antivirals, their modes of action, adverse effects, and drug interactions. Literature search has been carried out meticulously. Conclusion: Many options are available for treating COVID-19, but treatment needs to be tailored according to the situation.
Ribosomally Synthesized Bacteriocins as Potent Anti-infective Agents, Their Medical and Pharmaceutical Applications
Page: 84-108 (25)
Author: Ghoson M. Daba*, Marwa O. Elnahas and Waill A. Elkhateeb
DOI: 10.2174/9789815179811124090005
PDF Price: $30
Abstract
The development of multidrug-resistant bacteria (MDRB) and the emergence of new lethal diseases have raised the need for potent anti-infective agents with different killing action mechanisms that contribute to treating and/or supporting the currently used drugs. For this purpose, bacteriocins are considered excellent candidates with promising potential. Bacteriocins are ribosomally synthesized antimicrobial peptides that are produced by many bacterial genera. They are characterized by high thermal stability, being active over a wide pH range, and having specificity against selected bacterial strains by employing specific receptors on their cell membrane, which encourages bacteriocins to use in clinical applications as support and/or alternatives currently used antibiotics. Interestingly, bacteriocins have many advantages over antibiotics, such as the relative difficulty of developing resistance compared to broad-spectrum antibiotics. Moreover, due to their simple biosynthetic mechanisms, bacteriocins can be easily bioengineered, which improves their activity or specificity against selected microorganisms. Additionally, bacteriocins originating from lactic acid bacteria have the extra safety advantage because many LAB and their products are classified by the American Food and Drug Administration (FDA) to be generally recognized as safe (GRAS). Bacteriocins have promising pharmaceutical potentials as anti-infective agents, anti-MDRB agents, antileishmanial, and antiviral agents. Moreover, bacteriocins have been used to treat many ulcers, tumors, and cancers. In this chapter, we highlight the importance of bacteriocins as anti-infective agents, describing their common action mechanisms and recent clinical and therapeutical applications of bacteriocins. Finally, prospects in this field are discussed to discover and develop more diverse and efficient bacteriocins with potent antiinfective activities.
Therapeutic Interventions Against Free Radicals in Viral Diseases
Page: 109-144 (36)
Author: Subhrajyoti Roy*, Mayukh Hore and Shubham Bhattacharyya
DOI: 10.2174/9789815179811124090006
PDF Price: $30
Abstract
The delicate balance between oxidants and antioxidants is a dynamic process, and when it hampers, oxidative stress occurs. Oxidative stress is now suggested to have a direct correlation with a viral infection, which in turn induces several oxidants like nitric oxide radicals, superoxide anions, hydroxyl radicals and their by-products (viz. hydrogen peroxide). All of these oxidants and their by-products contribute to viral pathogenesis and ultimately cause infectious diseases. The consequences of viral diseases account for considerable economic loss worldwide. In response to this, the scientific fraternity throughout the world is investigating the basic mechanisms underlying such diseases, as well as identifying novel therapeutic strategies for the prevention and treatment of such maladies. Over the last few decades, scientists oriented their research aims mostly towards elucidating the immunological basis of viral replication and pathogenesis, but a little is written about the implications of such research for drug development, which provides the impetus behind the creation of the present chapter enabling the readers to have a comprehensive overview on the involvement of free radicals in viral diseases along with latest updates towards developing novel therapeutic strategies against these diseases. The present chapter summarizes the relationship between oxidative stress, viral infection, and a variety of therapeutic strategies conferred by antioxidants. Antiviral therapeutic strategies based on antioxidants are considered to be a promising area of research against viral infections.
A Comprehensive Detail of Natural Anti-Infective Agents
Page: 145-186 (42)
Author: Anamika Sharma, Patil Shivprasad Suresh and Yogendra Padwad*
DOI: 10.2174/9789815179811124090007
PDF Price: $30
Abstract
The immune response is an essential regulatory system designed to confer protective ability to hosts against various foreign challenges, including bacteria and viruses. However, self-perpetuation and over-aggravation of the immune system are also responsible for a variety of infectious diseases in humans. Phytochemicals are biologically active, non-nutritive, low molecular weight secondary metabolites that occur in different parts of plants and are well known for their various health-beneficial effects. The non-nutritional plant-based bioactive molecules are amongst the major groups responsible for a majority of immunomodulatory health benefits. These phytomolecules have been shown to possess a significant role in the regulation of various vital cell signaling pathways involved in the pathogenesis of various infectious diseases such as tuberculosis, hepatitis, pneumonia and dengue. Bioactive molecules may play an essential protective role in infectious diseases by interfering with innate and adaptive immune cell regulation, especially proinflammatory cytokine synthesis and cell activation. Considering this, nowadays, most of the natural products are processed and developed as immunomodulators and immunosuppressants for different infectious diseases. In this chapter, we will discuss phytomolecules, their biological potential, and how these molecules regulate innate and adaptive immune responses in infectious diseases. We will also discuss and compare the depth of knowledge available from previous works, which emphasize the importance of developing phytomolecules based preventive and therapeutic approaches as alternatives to synthetic counterparts in infectious diseases.
Introduction
Frontiers in Clinical Drug Research – Anti Infectives (Volume 9) is a book series that provides updated reviews on the latest advancements in development of pharmaceutical agents for treating infectious diseases. The series covers various topics, including chemistry, pharmacology, molecular biology, and biochemistry of natural and synthetic drugs. Additionally, it addresses multi-drug resistance and pre-clinical/clinical findings on antibiotics, vaccines, antifungal agents, and antitubercular drugs. This series is an invaluable resource for pharmaceutical scientists and postgraduate students, offering critical information to support clinical trials and research in anti-infective drug discovery and epidemiology. The ninth volume presents five in-depth reviews, with topics including mature drugs and antivirals for COVID-19, bacteriocins as potent anti-infective agents, therapeutic interventions targeting free radicals in viral diseases, and a detailed exploration of natural anti-infective agents. The five reviews included in this volume are: - The role of mature drugs in the COVID-19 era - Antivirals to treat COVID-19 - Ribosomally synthesized bacteriocins as potent anti-infective agents - Therapeutic interventions against free radicals in viral diseases - A comprehensive overview of natural anti-infective agents