Abstract

The long-range goals of this project are to use polypyrrole-based anion receptors to understand the fundamental factors that regulate anion recognition and transport processes in biology and to develop synthetic systems that are useful in the diagnosis and treatment of human disease. This two-year project is concerned specifically with 1) the design of high- affinity receptors that will allow for anion recognition in the presence of water, especially those targeting chloride and phosphate, and 2) using these agents to create new polymeric systems with anion-specific recognition properties and demonstrating that these latter polymers may be used for the sequestration of phosphate and other anions under interfacial conditions. The focus will be on calixpyrrole and pyrrole-amide receptors that rely on multiple donor sets and which take advantage of new anion recognition motifs (e.g., CH-anion hydrogen bonds, localized charges,and ion-pairing interactions) and controlled geometries (achieved through strapping one receptor face, for instance) to achieve the requisite high affinity while still. Permitting functionalization and polymerization. The expectation is that by the time this two-year project is complete, a new set of polymerbased extractants will be in hand that could then be developed further for eventual use in the control of end-stage renal disease, where phosphate anion removal represents an important unsolved problem.

Public Health Relevance

This project is concerned with the synthesis and study of anion receptors. Anions are ubiquitous in the biological world and thus directly related to human health. This ongoing program of research has its emphasis on the synthesis and study of new pyrrole-based anion receptors, as well as polymers containing these kinds of anion-binding recognition units. The synthesis and study of these latter polymers are the focus of this two-year project; if developed as proposed they are expected to allow for the extractive removal of so-called hard anions, such as chloride and phosphate, that are at the root of a number of diseases, and, in the case of phosphate, are a recognized problem during hemodialysis. This work is thus expected not only to improve our understanding of these anions, but also to lay the foundation for improvements in human health, particularly in the control of end-stage renal disease.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
2R01GM058907-13A1
Application #
7687678
Study Section
Special Emphasis Panel (ZRG1-BCMB-B (03))
Program Officer
Fabian, Miles
Project Start
2009-07-17
Project End
2011-06-30
Budget Start
2009-07-17
Budget End
2010-06-30
Support Year
13
Fiscal Year
2009
Total Cost
$329,418
Indirect Cost

  Institution

Name
University of Texas Austin
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
170230239
City
Austin
State
TX
Country
United States
Zip Code
78712

  Publications

Share, Andrew I; Patel, Khushali; Nativi, Cristina et al. (2016) Chloride anion transporters inhibit growth of methicillin-resistant Staphylococcus aureus (MRSA) in vitro. Chem Commun (Camb) 52:7560-3
Jung, Hyo Sung; Han, Ji Hye; Pradhan, Tuhin et al. (2012) A cysteine-selective fluorescent probe for the cellular detection of cysteine. Biomaterials 33:945-53
Kim, Sung Kuk; Gross, Dustin E; Cho, Dong-Gyu et al. (2011) N-Tosylpyrrolidine calix[4]pyrrole: synthesis and ion binding studies. J Org Chem 76:1005-12
Rambo, Brett M; Sessler, Jonathan L (2011) Oligopyrrole macrocycles: receptors and chemosensors for potentially hazardous materials. Chemistry 17:4946-59
Hargrove, Amanda E; Nieto, Sonia; Zhang, Tianzhi et al. (2011) Artificial receptors for the recognition of phosphorylated molecules. Chem Rev 111:6603-782
Devoille, Aline M J; Richardson, Patricia; Bill, Nathan L et al. (2011) Selective anion binding by a cofacial binuclear zinc complex of a Schiff-base pyrrole macrocycle. Inorg Chem 50:3116-26
Park, In-Won; Kim, Sung-Kuk; Lee, Mee-Ja et al. (2011) Calix[4]pyrrole-calix[4]arene-crown-5 conjugate with flexible linkers as a model for a selective ion-pair container. Chem Asian J 6:2911-5
Cai, Jiajia; Yang, Xiaoping; Arumugam, Kuppuswamy et al. (2011) Structurally Characterized Cationic Silver(I) and Ruthenium(II)carbene complexes of 1,2,3-Triazol-5-ylidenes. Organometallics 30:5033-5037
Lee, Min Hee; Cao, Qian-Yong; Kim, Sung Kuk et al. (2011) Anion responsive TTF-appended calix[4]arenes. Synthesis and study of two different conformers. J Org Chem 76:870-4
Rambo, Brett M; Silver, Eric S; Bielawski, Christopher W et al. (2010) Covalent Polymers Containing Discrete Heterocyclic Anion Receptors. Top Heterocycl Chem 25:1-37

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