Mechanisms and Therapeutic Potential of Nutritional Immunity
Charles Egede Ugwu, Olalekan Chris Akinsulie, Toyin Florence Ayandokun, Favour Akinfemi Ajibade, Sammuel Shahzad, Victor Ayodele Aliyu, Moyinoluwa Joshua Oladoye, Ibrahim Idris, Kingsley Ogochukwu Obasi, Joel Kosisochukwu Edeh, Al-Amin Adebare Olojede, Chizaram Blessing Ukauwa

TL;DR
This review explores how the body uses nutritional immunity to starve pathogens of essential nutrients, offering insights into new therapeutic strategies for fighting infections.
Contribution
The paper provides a comprehensive synthesis of molecular mechanisms and adaptive strategies in nutritional immunity, emphasizing translational potential.
Findings
Hosts use iron-withholding and vitamin deprivation to limit pathogen growth.
Pathogens adapt through siderophore diversification and metabolic rewiring.
Nutritional immunity mechanisms show promise for host-directed therapies and diagnostics.
Abstract
Nutritional immunity is a major facet of host defense, wherein the host immune system strategically limits pathogen access to critical nutrients, including iron, zinc, vitamins, lipids, and amino acids, to repress microbial proliferation and virulence. This review provides a comprehensive synthesis of the molecular mechanisms that power nutrient immunity, including metal homeostasis, nutrient competition, transporter modulation, hormonal regulation, and direct antimicrobial actions. We examine nutrient-specific strategies employed by the host, such as iron-withholding mechanisms, vitamin deprivation, and copper-mediated toxicity. We also explore how diverse pathogens, including extracellular, intracellular, and eukaryotic pathogens, adapt to these hostile nutritional landscapes through siderophore diversification, regulatory integration, and metabolic rewiring. Comparative genomic…
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Taxonomy
TopicsTrace Elements in Health · Iron Metabolism and Disorders · Immune responses and vaccinations
