The metabolic activity of macrophages infected with tick-borne encephalitis virus (TBEV) affecting the human nervous system has been studied for the first time. The penetration and reproduction of TBEV in the macrophages stimulated their oxygen metabolism, increasing the activity of NADPH-oxidase complex, as well as the mitochondrial enzymes lactate dehydrogenase, succinate dehydrogenase, and cytochrome oxidase. A wave-like change in the activity of these enzymes in the macrophages reflected the reaction of the cells to the penetration of the virus in the first period (within 3 h) and to the synthesis of the virus particles and their exit into the extracellular space in the second period (from 5 to 48 h). In the macrophages infected with TBEV, accumulation of NO metabolites was observed. In the late period of the examination (1-4 days), the activities of superoxide dismutase and lysosomal enzymes (nonspecific esterase and acid phosphatase) were detected. Thus, the early increase in the activity of the cell enzymes indicates the activation of the macrophages, and the subsequent increase in their activity corresponds to the enhanced synthetic activity of the macrophages.
In the 2000s, a scientific interest to the Far Eastern scarlet-like fever (FESLF) mainly recorded In Russia and Japanwas remarkably increased. Such clinical and epidemic manifestation of human pseudotuberculosis is related to a certain bacterial clonal lineage characterized by a specific plasmid profile (pVM82, pYV48), sequence type (2ST) as well as the yadA gene allele (1st allele). In our study we examined features of inflammatory changes characterizing plasmidassociated pathogenicity of the FESLF pathogen. In addition, organ histopathology in experimental animals infected intraperitoneally with Y. pseudotuberculosis strains of the four plasmid types 48+:82+; 48+:82-; 48-:82+; 48-:82-; and 48-:82-was investigated. It was found that the mortality rate in animals infected with Y. pseudotuberculosis H-5015 strain (82+:48+) bearing two plasmids with a molecular weight of 82 and 48 MDa was 40%. A picture of diffuse pneumonia with moderate inflammatory infiltration in pulmonary tissue and changes in lymphoid organs characterizing immunodeficiency we observed as early as 3 days postinfection (p.i.). On the contrary, animals infected with Y. pseudotuberculosis H-5015 strain (82+:48–) bearing a single plasmid 82 MDa pVM, mortality rate was 30%. A vascular reaction in the lungs and liver as well as deteriorated vascular destructive changes were revealed starting from day 3 and on day 5–7 days p.i., respectively, which was paralleled with perivascular infiltration mainly by mononuclear cells and focal pneumonia as well as a reaction of bronchialassociated lymphoid tissue and minimal organ destructive changes. On day 7 p.i., signs of granulomatous inflammation in the liver in a form of small mononuclear cell clusters and perivascular compact infiltrates were found. At all time points, lymphoid organ hyperplasia was noted. In case the infection caused by H-5013 strain (48+), the mortality rate was 80%. Inflammatory changes with dominant mononuclear cells were detected as early as 1 day p.i. associated with a picture of large focal bronchopneumonia, more pronounced in the non-survivor animals, also demonstrating signs of severe immunosuppression in the lymphoid organs. Starting from day 3 p.i., lymphoid hypoplasia in the spleen and lymph nodes was detected in all infected animals paralleled with pathogen-associated tissue damage in various organs. Animals infected with the plasmid-free H-5013 strain 48-) resulted in 25% mortality rate. Moreover, starting from day 3 p.i., a slight mononuclear inflammatory infiltration in the lungs and liver, a moderate giant cell reaction in the splenic pulp, and loose perinodal inflammatory infiltration in the lymph nodes were observed. Thus, while modeling infection caused by different plasmid types of Y. pseudotuberculosis, the data on differences in histopathology of changes in diverse organs regarding dynamics and generalization of the inflammatory response, as well as the severity of pathogen-associated damage in the lymphoid tissue were obtained. In case Y. pseudotuberculosis strains contained pVM82 plasmid with or without virulence plasmid pYV vs. single pYV-positive strains, an area of the inflammatory response as well as severity of immunosuppression manifested by splenic and lymph node delymphatization were decreased. It allowed to suggest that pVM82 plasmid found In Russia-originatingY. pseudotuberculosisstrains might be implicated in limiting intensity of inflammatory response, bacterial dissemination and severity of lymphoid organ damage.
Rapid development in 2020 of the COVID-19 pandemic caused by SARS-CoV-2 initially indicated signifi-cant involvement of the immune system. However, information on specific changes in organs of the immune system is still limited. A wide range of alterations was revealed in our study: from pronounced devastation of B-dependent and T-dependent zones of lymphoid tissue, reminiscent of changes in HIV infection at the AIDS stage, to hyperplasia of the tissue of lymph nodes and spleen of varying degrees. Analyzing the literature data, we focused on the fact that pathomorphological changes revealed in the autopsy studies of patients with a severe COVID-19 were accompanied by premortal lymphopenia in most cases. However, the cause of lymphopenia in COVID-19 has not yet been disclosed, authors of the review hypothesized that unregulated apoptosis of circulating lymphocytes is one of the potential lymphopenia inductors. Cytokine activation (“cytokine storm”) may be associated with lymphoid organs’ atrophy, which also contributes to a decrease in the circulating lymphocyte count. There is no doubt about the relevance of further identification of the immune cell apoptosis as one of the causes of lymphopenia and immune dysfunction in COVID-19 patients, which has prospects for pharmacological developments to manage lymphocytic apoptosis. Keywords: coronavirus infection, COVID-19, pathomorphology, lymphopenia, lymph nodes, spleen, lym-phocytic apoptosis
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.