V. S. Rogovsky scite author profile

V. S. Rogovsky

3Publications

27Citation Statements Received

0Citation Statements Given

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208

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Pirogov Russian National Research Medical University

Publications

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Role of Neurochemicals in the Interaction between the Microbiota and the Immune and the Nervous System of the Host Organism

Oleskin

Shenderov

Rogovsky

2017

Probiotics & Antimicro. Prot.

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This work is concerned with the role of evolutionary conserved substances, neurotransmitters, and neurohormones, within the complex framework of the microbial consortium-immune system-nervous system axis in the human or animal organism. Although the operation of each of these systems per se is relatively well understood, their combined effects on the host organism still await further research. Drawing on recent research on host-produced and microbial low-molecular-weight neurochemicals such as biogenic amines, amino acids, and short-chain fatty acids (SCFAs), we suggest that these mediators form a part of a universal neurochemical "language." It mediates the whole gamut of harmonious and disharmonious interactions between (a) the intestinal microbial consortium, (b) local and systemic immune cells, and (c) the central and peripheral nervous system. Importantly, the ongoing microbiota-host interactivity is bidirectional. We present evidence that a large number of microbially produced low-molecular-weight compounds are identical or homologous to mediators that are synthesized by immune or nervous cells and, therefore, can bind to the corresponding host receptors. In addition, microbial cells specifically respond to host-produced neuromediators/neurohormones because they have adapted to them during the course of many millions of years of microbiota-host coevolution. We emphasize that the terms "microbiota" and "microbial consortium" are to be used in the broadest sense, so as to include, apart from bacteria, also eukaryotic microorganisms. These are exemplified by the mycobiota whose role in the microbial consortium-immune system-nervous system axis researchers are only beginning to elucidate. In light of the above, it is imperative to reform the current strategies of using probiotic microorganisms and their metabolites for treating and preventing dysbiosis-related diseases. The review demonstrates, in the example of novel probiotics (psychobiotics), that many target-oriented probiotic preparations produce important side effects on a wide variety of processes in the host organism. In particular, we should take into account probiotics' capacity to produce mediators that can considerably modify the operation of the microecological, immune, and nervous system of the human organism.

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Gut human microbiota and multiple sclerosis

Kozhieva

Melnikov

Rogovsky

et al. 2017

Z. nevrol. psikhiatr. im. S.S. Korsakova

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Recently the relationship between gut microbiota changes and the development of immune-mediated diseases of the central nervous system (CNS) has been reported. This review presents literature data on the effect of gut microbiota on the function of the immune and nervous systems. The authors discuss possible mechanisms of the relationship between gut microbiota changes and CNS diseases on the model of multiple sclerosis (MS).

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Effect of an Inclusion Complex of an Aminomethylated Dihydroquercetin Derivative in Cyclodextrin on Ozone-Induced Oxidation of Fibrinogen

et al. 2013

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V. S. Rogovsky

Role of Neurochemicals in the Interaction between the Microbiota and the Immune and the Nervous System of the Host Organism

Gut human microbiota and multiple sclerosis

Effect of an Inclusion Complex of an Aminomethylated Dihydroquercetin Derivative in Cyclodextrin on Ozone-Induced Oxidation of Fibrinogen

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