Background: Metabolic disorders are a major cause of illness and death worldwide. Metabolism is the process by which the body makes energy from proteins, carbohydrates, and fats; chemically breaking these down in the digestive system towards sugars and acids which constitute the human body's fuel for immediate use, or to store in body tissues, such as the liver, muscles, and body fat. Objective: The efficiency of treatments for multifactor diseases has not been proved. It is accepted that to manage multifactor diseases, simultaneous modulation of multiple targets is required leading to the development of new strategies for discovery and development of drugs against metabolic disorders. Methods: In silico studies are increasingly being applied by researchers due to reductions in time and costs for new prototype synthesis; obtaining substances that present better therapeutic profiles. Discussion: In the present work, in addition to discussing multi-target drug discovery and the contributions of in silico studies to rational bioactive planning against metabolic disorders such as diabetes and obesity, we review various in silico study contributions to the fight against human metabolic pathologies. Conclusion: In this review, we have presented various studies involved in the treatment of metabolic disorders; attempting to obtain hybrid molecules with pharmacological activity against various targets and expanding biological activity by using different mechanisms of action to treat a single pathology.
Neglected Tropical Diseases (NTDs) form a group of diseases that are strongly associated with poverty, flourish in impoverished environments, and thrive best in tropical areas, where they tend to present overlap. They comprise several diseases, and the symptoms vary dramatically from disease to disease, often causing from extreme pain, and untold misery that anchors populations to poverty, permanent disability, and death. They affect more than 1 billion people worldwide; mostly in poor populations living in tropical and subtropical climates. In this review, several complementary in silico approaches are presented; including identification of new therapeutic targets, novel mechanisms of activity, high-throughput screening of small-molecule libraries, as well as in silico quantitative structure-activity relationship and recent molecular docking studies. Current and active research against Sleeping Sickness, American trypanosomiasis, Leishmaniasis and Schistosomiasis infections will hopefully lead to safer, more effective, less costly and more widely available treatments against these parasitic forms of Neglected Tropical Diseases (NTDs) in the near future.
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