Nasal microbiome dynamics: decoding the intricate nexus in the progression of respiratory and neurological diseases.

Abstract

In recent times, the nasal region has emerged as a distinctive and dynamic environment where a myriad of microbial communities establish residence from infancy, persisting as both commensal and opportunistic pathogens throughout the lifespan. Understanding the coexistence of microorganisms in respiratory mucosal layers, their potential for infections, and the underlying molecular mechanisms shaping these interactions is crucial for developing efficient diagnostic and therapeutic interventions against respiratory and neurodegenerative diseases. Despite significant strides in understanding the olfactory system's nexus with nasal microbiota, comprehensive correlations with neurological diseases still need to be discovered. The nasal microbiome, a sentinel in immune defense, orchestrates a delicate equilibrium that, when disrupted, can precipitate severe respiratory infections, including Chronic Rhinosinusitis, Chronic obstructive pulmonary disorder (COPD), and Asthma, and instigate a cascade effect on central nervous system diseases such as Alzheimer's disease (AD), Parkinson's disease (PD), and Multiple sclerosis (MS). This review aims to redress this imbalance by meticulously exploring the anatomical and microbiological nuances of the nasal mucosal surface in health and disease. By delineating the molecular intricacies of these interactions, this review unravels the molecular mechanisms that govern the intricate nexus between nasal microbiota dysbiosis, olfactory dysfunction, and the progression of respiratory and neurological diseases.