Zinc deficiency enhances sensitivity to influenza A associated bacterial pneumonia in mice

Radha Gopal; Egemen Tutuncuoglu; Veli Bakalov; Karla Wasserloos; HuiHua Li; David Lemley; Louis J. DeVito; Nicholas J. Constantinesco; Douglas S. Reed; Kevin J. McHugh; Baskaran Chinnappan; Alexis R. Andreas; Abigail Maloy; Daniel Bain; John F. Alcorn; Bruce R. Pitt; Ata Murat Kaynar

doi:10.14814/phy2.15902

Physiological Reports (Jan 2024)

Zinc deficiency enhances sensitivity to influenza A associated bacterial pneumonia in mice

Radha Gopal,
Egemen Tutuncuoglu,
Veli Bakalov,
Karla Wasserloos,
HuiHua Li,
David Lemley,
Louis J. DeVito,
Nicholas J. Constantinesco,
Douglas S. Reed,
Kevin J. McHugh,
Baskaran Chinnappan,
Alexis R. Andreas,
Abigail Maloy,
Daniel Bain,
John F. Alcorn,
Bruce R. Pitt,
Ata Murat Kaynar

Affiliations

Radha Gopal: Department of Pediatrics UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania USA
Egemen Tutuncuoglu: The Clinical Research, Investigation, and Systems Modeling of Acute Illness (CRISMA) Center University of Pittsburgh Pittsburgh Pennsylvania USA
Veli Bakalov: The Clinical Research, Investigation, and Systems Modeling of Acute Illness (CRISMA) Center University of Pittsburgh Pittsburgh Pennsylvania USA
Karla Wasserloos: Department of Environmental and Occupational Health University of Pittsburgh Pittsburgh Pennsylvania USA
HuiHua Li: Department of Environmental and Occupational Health University of Pittsburgh Pittsburgh Pennsylvania USA
David Lemley: Department of Environmental and Occupational Health University of Pittsburgh Pittsburgh Pennsylvania USA
Louis J. DeVito: Department of Pediatrics UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania USA
Nicholas J. Constantinesco: Department of Pediatrics UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania USA
Douglas S. Reed: Center for Vaccine Research University of Pittsburgh Pittsburgh Pennsylvania USA
Kevin J. McHugh: Department of Pediatrics UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania USA
Baskaran Chinnappan: Department of Pediatrics UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania USA
Alexis R. Andreas: Department of Critical Care Medicine University of Pittsburgh Pittsburgh Pennsylvania USA
Abigail Maloy: Department of Critical Care Medicine University of Pittsburgh Pittsburgh Pennsylvania USA
Daniel Bain: Department of Geology and Planetary Science University of Pittsburgh Pittsburgh Pennsylvania USA
John F. Alcorn: Department of Pediatrics UPMC Children's Hospital of Pittsburgh Pittsburgh Pennsylvania USA
Bruce R. Pitt: Department of Environmental and Occupational Health University of Pittsburgh Pittsburgh Pennsylvania USA
Ata Murat Kaynar: The Clinical Research, Investigation, and Systems Modeling of Acute Illness (CRISMA) Center University of Pittsburgh Pittsburgh Pennsylvania USA

DOI: https://doi.org/10.14814/phy2.15902
Journal volume & issue: Vol. 12, no. 1
pp. n/a – n/a

Abstract

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Abstract Although zinc deficiency (secondary to malnutrition) has long been considered an important contributor to morbidity and mortality of infectious disease (e.g. diarrhea disorders), epidemiologic data (including randomized controlled trials with supplemental zinc) for such a role in lower respiratory tract infection are somewhat ambiguous. In the current study, we provide the first preclinical evidence demonstrating that although diet‐induced acute zinc deficiency (Zn‐D: ~50% decrease) did not worsen infection induced by either influenza A (H1N1) or methicillin‐resistant staph aureus (MRSA), Zn‐D mice were sensitive to the injurious effects of superinfection of H1N1 with MRSA. Although the mechanism underlying the sensitivity of ZnD mice to combined H1N1/MRSA infection is unclear, it was noteworthy that this combination exacerbated lung injury as shown by lung epithelial injury markers (increased BAL protein) and decreased genes related to epithelial integrity in Zn‐D mice (surfactant protein C and secretoglobins family 1A member 1). As bacterial pneumonia accounts for 25%–50% of morbidity and mortality from influenza A infection, zinc deficiency may be an important pathology component of respiratory tract infections.

Published in Physiological Reports

ISSN: 2051-817X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physiology
Website: https://physoc.onlinelibrary.wiley.com/journal/2051817x

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