Abstract

Several respiratory diseases and disorders could be better and more widely treated with an effective and low-cost biomimetic lung surfactant (LS) replacement. In present medical practice, LS replacements (used predominantly to treat neonatal respiratory distress syndrome) derive from animal lungs, are expensive, and carry risks of viral transmission and immune response. We propose to continue the development of a novel class of functional mimics of the lung surfactant proteins based on poly-N-substituted glycines (peptoids), which are sequence-specific heteropolymers synthesized on solid phase, similarly to peptides. Peptoids are protease resistant, and with proper sequence design can form stable, helical secondary structures that resist non-specific aggregation. Over the past 3.5 years, we have created and studied two different, novel classes of helical, amphipathic peptoid oligomers with sequence and structural similarity to (1) SP-B (residues 1-25) and (2) SP-C (residues 5-32). In vitro biophysical studies of the surface activities of these peptoid-based SP mimics in an LS-like lipid film demonstrate that the best designs within each class of mimics perform similarly to the natural peptides they are designed to replace. While initial results are very promising, much work remains to be done to develop peptoid-based SP mimics for a clinically useful, biomimetic LS replacement. We must now gain a deeper understanding of structure-activity relationships for the two classes of amphiphilic peptoid SP mimics under study. We propose to do this by varying key structural features and performing detailed studies of the effects on surface activity, in parallel with Molecular Dynamics simulations. For SP-C mimics, we will study the effects of hydrophobic helix length, side chain chemistry and overall helicity, and will also mimic the palmitoylation of natural SP-C. Proposed SP-B mimics will have increasingly protein-like sequences and side chain chemistries, and we will test the hypothesis that dimerization will improve their activity. We will carry out in vitro studies of peptoid-containing surfactant using CD, pulsating bubble surfactometry, a Langmuir trough/Wilhelmy surface balance, fluorescence microscopy, unilamellar vesicles, and X-ray reflectivity/diffraction to map out structure-activity relationships and study peptoid-lipid interactions. We will investigate surfactant formulations containing mimics of both SPs, and we will study the bicompatibility and in vivo efficacy of peptoid surfactants with lung epithelial cells and animal models of RDS.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL067984-10
Application #
7790606
Study Section
Biomaterials and Biointerfaces Study Section (BMBI)
Program Officer
Lin, Sara
Project Start
2001-09-01
Project End
2011-03-31
Budget Start
2010-04-01
Budget End
2011-03-31
Support Year
10
Fiscal Year
2010
Total Cost
$328,600
Indirect Cost

  Institution

Name
Stanford University
Department
Biomedical Engineering
Type
Schools of Medicine
DUNS #
009214214
City
Stanford
State
CA
Country
United States
Zip Code
94305

  Publications

Czyzewski, Ann M; McCaig, Lynda M; Dohm, Michelle T et al. (2018) Effective in vivo treatment of acute lung injury with helical, amphipathic peptoid mimics of pulmonary surfactant proteins. Sci Rep 8:6795
Chongsiriwatana, Nathaniel P; Lin, Jennifer S; Kapoor, Rinki et al. (2017) Intracellular biomass flocculation as a key mechanism of rapid bacterial killing by cationic, amphipathic antimicrobial peptides and peptoids. Sci Rep 7:16718
Brown, Nathan J; Dohm, Michelle T; de la Serna, Jorge Bernardino et al. (2011) Biomimetic N-terminal alkylation of peptoid analogues of surfactant protein C. Biophys J 101:1076-85
Chongsiriwatana, Nathaniel P; Wetzler, Modi; Barron, Annelise E (2011) Functional synergy between antimicrobial peptoids and peptides against Gram-negative bacteria. Antimicrob Agents Chemother 55:5399-402
Dohm, Michelle T; Kapoor, Rinki; Barron, Annelise E (2011) Peptoids: bio-inspired polymers as potential pharmaceuticals. Curr Pharm Des 17:2732-47
Chongsiriwatana, Nathaniel P; Miller, Tyler M; Wetzler, Modi et al. (2011) Short alkylated peptoid mimics of antimicrobial lipopeptides. Antimicrob Agents Chemother 55:417-20
Dohm, Michelle T; Mowery, Brendan P; Czyzewski, Ann M et al. (2010) Biophysical mimicry of lung surfactant protein B by random nylon-3 copolymers. J Am Chem Soc 132:7957-67
Chongsiriwatana, Nathaniel P; Barron, Annelise E (2010) Comparing bacterial membrane interactions of antimicrobial peptides and their mimics. Methods Mol Biol 618:171-82
Dohm, Michelle T; Brown, Nathan J; Seurynck-Servoss, Shannon L et al. (2010) Mimicking SP-C palmitoylation on a peptoid-based SP-B analogue markedly improves surface activity. Biochim Biophys Acta 1798:1663-78
Dohm, Michelle T; Seurynck-Servoss, Shannon L; Seo, Jiwon et al. (2009) Close mimicry of lung surfactant protein B by ""clicked"" dimers of helical, cationic peptoids. Biopolymers 92:538-53

Showing the most recent 10 out of 18 publications