Abstract
Scientific drug design enables the production of novel agents that may be specific for individual malaria species, particularly by targeting their methods of cellular entry. Though there are practical and theoretical barriers to introducing novel agents into clinical practice, there may also be theoretical benefits to encourage further investigation of such agents, including a reduction in the rate of development of falciparum resistance. This paper discusses the potential risks and benefits such agents using the example of CCR5 blockers, drugs which are already in use for HIV treatment, but may be able to block DARC, the site of Plasmodium vivax into the human red blood cell.
Keywords: DARC, malaria, chemokine receptors, Scientific drug design, novel agents, individual malaria species, theoretical barriers, falciparum resistance, Plasmodium vivax, Plasmodium, human red blood cell, falciparum, thalassemia, antimicrobials, pathogen
Related Journals
Current Medicinal Chemistry
Current Pharmaceutical Design
Current Topics in Medicinal Chemistry
Current Respiratory Medicine Reviews
Endocrine, Metabolic & Immune Disorders - Drug Targets
Current HIV Research
Anti-Infective Agents
Coronaviruses
Recent Advances in Inflammation & Allergy Drug Discovery
Current Probiotics
Related Books
Frontiers in Clinical Drug Research: Anti-Infectives
Frontiers in Anti-Infective Drug Discovery
Coronaviruses
Moving From COVID-19 Mathematical Models to Vaccine Design: Theory, Practice and Experiences
COVID-19: Effects in Comorbidities and Special Populations
An Update on SARS-CoV-2: Damage-response Framework, Potential Therapeutic Avenues and the Impact of Nanotechnology on COVID-19 Therapy
Mitochondrial DNA and the Immuno-inflammatory Response: New Frontiers to Control Specific Microbial Diseases
An Epidemiological Update on COVID -19
Frontiers in Clinical Drug Research – Anti Allergy Agents
Frontiers in Clinical Drug Research: Anti-Infectives
9