Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections
About This Grant
Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections Signal transducer and activator of transcription 3 (STAT3) regulates the expression of genes essential for various cellular processes, including survival, proliferation, differentiation, self-renewal, angiogenesis, and immune response. Abnormal and persistent STAT3 activation is detected in diverse human cancers, driving multiple pro- oncogenic functions. Multiple antitumor drug development targets the inhibition of STAT3 to treat various types of cancer. Unfortunately, downregulated STAT3 significantly increases host susceptibility to recurrent infections, especially pneumonia. Additionally, individuals with genetic polymorphisms associated with lower STAT3 expression are more susceptible to severe tuberculosis. Furthermore, patients with autosomal dominant hyper- IgE syndrome (AD-HIES), also known as Job Syndrome, which is caused by de novo STAT3 mutations and substantially decreased STAT3 expression, have a significantly increased susceptibility to bacterial and fungal infections, with high mortality rates and a shortened life span often associated with Pseudomonas aeruginosa infections. Gram-negative bacteria, particularly P. aeruginosa, are opportunistic pathogens that frequently cause hospital-acquired infections. The problems are worsened by the emerging P. aeruginosa with multidrug resistance (MDR), especially in patients with repeated antibiotic treatments, such as Job Syndrome sufferers. Notably, airway epithelial cell-derived proteins play a significant role in the antimicrobial milieu, promoting effective host defense against invading pathogens. One of the most critical STAT3-regulated antimicrobial molecules is bactericidal permeability-increasing protein fold A1 (BPIFA1, also known as SPLUNC1), a multifunctional innate immunity molecule and indispensable host defense protein that is abundantly secreted in the lungs. This application aims to elucidate how STAT3 deficiency impairs host epithelial defense against microbial infections and whether BPIFA1-mediated innate immune responses can sufficiently restore effective antimicrobial protection to prevent pneumonia. The long-term objective is to advance our understanding of the respiratory innate immune response, particularly in relation to epithelial cell-specific antimicrobial defense. We characterized BPIFA1 as an airway lining fluid protein secreted apically in the airway lumen and in primary human airway epithelial cultures. In this study, we hypothesize that mucosal BPIFA1 is an essential antimicrobial protein that plays a critical role in host defense against microbial infections in STAT3-deficiency- associated pneumonia. Our proposed studies will assess innate immunity mechanisms regulating the antimicrobial activity of the airway epithelium in STAT3 deficiency-associated lung infections. By focusing on the crucial epithelial-derived protein product, BPIFA1, our study will provide an alternative treatment for respiratory infections by augmenting native host defense mechanisms in high-risk individuals, including AD-HIES, cancer, and immunocompromised patients.
Grant Summary
Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections is a NHLBI - National Heart Lung and Blood Institute grant providing up to $778K for university, nonprofit, healthcare org. Applications are due 2030-03-31 (open). Check eligibility and apply with FindGrants.
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Up to $778K
2030-03-31
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- 2Gather the required documents and information, including your organization details, project plan, and budget figures.
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Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections: Frequently Asked Questions
Who is eligible for the Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections?
Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections is offered by NHLBI - National Heart Lung and Blood Institute and is generally open to university, nonprofit, healthcare org. It is open to organizations nationwide unless the funder specifies otherwise. Review the specific eligibility terms before applying, since funders set their own requirements around organization type, location, and the population or project being served.
How much funding does the Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections provide?
Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections provides up to $778K per award from NHLBI - National Heart Lung and Blood Institute. Actual award sizes depend on the scope of your project, available program funds, and the number of applicants, so build a budget that reflects realistic, allowable costs rather than the maximum figure.
When is the Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections deadline?
Applications for Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections are due 2030-03-31 (open). Because deadlines can change, verify the date with the funder, NHLBI - National Heart Lung and Blood Institute, and give yourself enough time to prepare a complete, competitive application before the close date.
How do you apply for the Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections?
To apply for Airway Epithelial Defense Mechanisms in Combating STAT3-Deficiency-Related Lung Infections, confirm your eligibility, gather the required documents, and prepare a narrative and budget that address the funder's priorities. FindGrants guides you step by step and can draft each section, then exports a submission-ready application pack for this grant from NHLBI - National Heart Lung and Blood Institute.