# Multi-Scale Investigations of Respiratory Mucus/Mucin Structure and Function in Health and Disease > **NIH NIH P01** · UNIV OF NORTH CAROLINA CHAPEL HILL · 2024 · $88,718 ## Abstract OVERALL ABSTRACT The mucus clearance system constitutes the primary airway host defense system against inhaled infectious agents and toxins. However, despite more than two centuries of research into the nature of the mucus clearance system, surprising gaps in our knowledge of fundamental aspects of this system persist. Filling in these gaps is important for improving public health strategies to combat respiratory infectious diseases. Filling in these gaps is also important for elucidating the pathogenesis of and developing therapies for chronic pulmonary diseases, including COPD, asthma, NCFB, and rare genetic diseases (CF, PCD), which are by definition characterized by mucus accumulation in the lung. This PPG proposes to investigate fundamental, but poorly understood, aspects of the mucus clearance system that must be quantitated to understand mucus function in health and dysfunction in disease. Each PPG project has two specific aims focused on basic mucin function and one focused on translational aspects of mucin pathobiology. Project 1 (“Mucin Structure and Associations in Respiratory Mucus”, Michael Rubinstein, PhD, PI) will investigate fundamental aspects of the organization of mucins in solution and within the mucus layer. These studies will be complemented by studies of the addition of “abnormal polymers”, e.g., DNA, to mucus solutions. Project 2 (“Why are mucins so gigantic and is it safe/effective to sever them therapeutically?”, Richard C. Boucher, MD, PI) will focus on the fundamental question as to why human airway mucin polymers are of such enormous size (300 MDa, Rg 250 nm) and characterize the ratio of efficacy (chain length reduction) vs risk (off-target chain unwinding) required for the development of mucolytics for lung disease. Project 3 (“Membrane-bound mucins on the airway surface ensure efficient mucus clearance and lung health”, Brian Button, PhD, PI) will study the relationships between cilia, PCL, and the mucus layer required for transport, focusing on a novel hydraulic “pushing” vs classic “clawing” mechanisms. In addition, barrier functions of PCL and regulation thereof will be studied. Project 4 (“Biophysical and structural characterization of airway submucosal gland mucus in health and cystic fibrosis”, Ronit Freeman, PhD, PI) will focus on a novel attribute of submucosal gland (SMG) mucus, a strand/bundle insoluble component, and how strands/bundles contribute to SMG mucus function in health and disease. Three cores support the PPG: 1) Core A, the Administrative/Biostatistical Core, Multi-PIs Richard C. Boucher, MD, and Michael Rubinstein, PhD, supplies project management and statistical support for the PPG; 2) Core B, the Mucus/Mucin Analytics Core, PI Mehmet Kesimer, PhD, provides quality control of all mucin reagents for the PPG and novel biochemical/biophysical measurements; and 3) Core C, the Imaging Core, PI Camille Ehre, PhD, provides electron microscopic, molecular, and morphologic analyses to the projects. T... ## Key facts - **NIH application ID:** 11113018 - **Project number:** 3P01HL164320-03S1 - **Recipient organization:** UNIV OF NORTH CAROLINA CHAPEL HILL - **Principal Investigator:** Richard Charles Boucher - **Activity code:** P01 (R01, R21, SBIR, etc.) - **Funding institute:** NIH - **Fiscal year:** 2024 - **Award amount:** $88,718 - **Award type:** 3 - **Project period:** 2022-08-15 → 2027-07-31 ## Primary source NIH RePORTER: https://reporter.nih.gov/project-details/11113018 ## Citation > US National Institutes of Health, RePORTER application 11113018, Multi-Scale Investigations of Respiratory Mucus/Mucin Structure and Function in Health and Disease (3P01HL164320-03S1). Retrieved via AI Analytics 2026-05-23 from https://api.ai-analytics.org/grant/nih/11113018. Licensed CC0. --- *[NIH grants dataset](/datasets/nih-grants) · CC0 1.0*