Limostatin and Its Human Ortholog Promote West Nile Virus Infection

Overview

Journal Insects

Specialty Biology

Date 2024 Jun 26

PMID 38921161

Authors

Ezra B Mead

Miyoung Lee

Chasity E Trammell

Alan G Goodman

Affiliations

Soon will be listed here.

Abstract

The arbovirus West Nile virus (WNV) is a danger to global health. Spread primarily by mosquitoes, WNV causes about 2000 cases per year in the United States. The natural mosquito immune response controls viral replication so that the host survives but can still transmit the virus. Using the genetically malleable model, we previously dissected innate immune pathways used to control WNV infection. Specifically, we showed that insulin/IGF-1 signaling (IIS) activates a JAK/STAT-mediated immune response that reduces WNV. However, how factors that regulate IIS in insects control infection has not been identified. () encodes a peptide hormone that suppresses insulin secretion. Its mammalian ortholog, Neuromedin U (NMU), is a peptide that regulates the production and secretion of insulin from pancreatic beta cells. In this study, we used and human cell culture models to investigate the roles of these insulin regulators in immune signaling. We found that mutants, which have elevated insulin-like peptide expression, are less susceptible to WNV infection. Increased levels of insulin-like peptides in these flies result in upregulated JAK/STAT activity, leading to protection from infection. Treatment of human cells with the insulin regulator NMU results in increased WNV replication. Further investigation of methods to target Lst in mosquitoes or NMU in mammals can improve vector control methods and may lead to improved therapeutics for human and animal infection.

Citing Articles

Sustained antiviral insulin signaling during West Nile virus infection results in viral mutations.

Char A, Trammell C, Fawcett S, Chauhan M, Debebe Y, Cespedes N Front Cell Infect Microbiol. 2024; 14:1492403.

PMID: 39664493 PMC: 11631865. DOI: 10.3389/fcimb.2024.1492403.

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