Enhanced Vulnerability of Diabetic Mice to Hypervirulent ST-17 Infection

Overview

Journal Pathogens

Date 2023 Apr 28

PMID 37111466

Authors

Jessica da Conceicao Mendonca

Joao Matheus Sobral Pena

Noemi Dos Santos Macedo

Dayane de Souza Rodrigues

Dayane Alvarinho de Oliveira

Brady L Spencer

Eduardo Jose Lopes-Torres

Lindsey R Burcham

Kelly S Doran

Prescilla Emy Nagao

Affiliations

Soon will be listed here.

Abstract

(Group B , GBS) is the leading cause of neonatal sepsis and meningitis but has been recently isolated from non-pregnant adults with underlying medical conditions like diabetes. Despite diabetes being a key risk factor for invasive disease, the pathological consequences during GBS infection remain poorly characterized. Here, we demonstrate the pathogenicity of the GBS90356-ST17 and COH1-ST17 strains in streptozotocin-induced diabetic mice. We show that GBS can spread through the bloodstream and colonize several tissues, presenting a higher bacterial count in diabetic-infected mice when compared to non-diabetic-infected mice. Histological sections of the lungs showed inflammatory cell infiltration, collapsed septa, and red blood cell extravasation in the diabetic-infected group. A significant increase in collagen deposition and elastic fibers were also observed in the lungs. Moreover, the diabetic group presented red blood cells that adhered to the valve wall and disorganized cardiac muscle fibers. An increased expression of KC protein, IL-1β, genes encoding immune cell markers, and ROS (reactive oxygen species) production was observed in diabetic-infected mice, suggesting GBS promotes high levels of inflammation when compared to non-diabetic animals. Our data indicate that efforts to reverse the epidemic of diabetes could considerably reduce the incidence of invasive infection, morbidity and mortality due to GBS.

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