Pneumocystis Jirovecii Rtt109, a Novel Drug Target for Pneumocystis Pneumonia in Immunosuppressed Humans

Overview

Journal Antimicrob Agents Chemother

Publisher American Society for Microbiology

Specialty Pharmacology

Date 2014 Apr 16

PMID 24733475

Citations 4

Authors

Jayme L Dahlin

Theodore Kottom

Junhong Han

Hui Zhou

Michael A Walters

Zhiguo Zhang

Andrew H Limper

Affiliations

Soon will be listed here.

Abstract

Pneumocystis pneumonia (PcP) is a significant cause of morbidity and mortality in immunocompromised patients. In humans, PcP is caused by the opportunistic fungal species Pneumocystis jirovecii. Progress in Pneumocystis research has been hampered by a lack of viable in vitro culture methods, which limits laboratory access to human-derived organisms for drug testing. Consequently, most basic drug discovery research for P. jirovecii is performed using related surrogate organisms such as Pneumocystis carinii, which is derived from immunosuppressed rodents. While these studies provide useful insights, important questions arise about interspecies variations and the relative utility of identified anti-Pneumocystis agents against human P. jirovecii. Our recent work has identified the histone acetyltransferase (HAT) Rtt109 in P. carinii (i.e., PcRtt109) as a potential therapeutic target for PcP, since Rtt109 HATs are widely conserved in fungi but are absent in humans. To further address the potential utility of this target in human disease, we now demonstrate the presence of a functional Rtt109 orthologue in the clinically relevant fungal pathogen P. jirovecii (i.e., PjRtt109). In a fashion similar to that of Pcrtt109, Pjrtt109 restores H3K56 acetylation and genotoxic resistance in rtt109-null yeast. Recombinant PjRtt109 is an active HAT in vitro, with activity comparable to that of PcRtt109 and yeast Rtt109. PjRtt109 HAT activity is also enhanced by the histone chaperone Asf1 in vitro. PjRtt109 and PcRtt109 showed similar low micromolar sensitivities to two reported small-molecule HAT inhibitors in vitro. Together, these results demonstrate that PjRtt109 is a functional Rtt109 HAT, and they support the development of anti-Pneumocystis agents directed at Rtt109-catalyzed histone acetylation as a novel therapeutic target for human PcP.

Citing Articles

Stoichiometry of Rtt109 complexes with Vps75 and histones H3-H4.

Akhavantabib N, Krzizike D, Neumann V, DArcy S Life Sci Alliance. 2020; 3(11).

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Characterization of N-Acetylglucosamine Biosynthesis in Pneumocystis species. A New Potential Target for Therapy.

Kottom T, Hebrink D, Jenson P, Ramirez-Prado J, Limper A Am J Respir Cell Mol Biol. 2016; 56(2):213-222.

PMID: 27632412 PMC: 5359649. DOI: 10.1165/rcmb.2016-0155OC.

Virtual Screening of Phytochemicals to Novel Target (HAT) Rtt109 in Pneumocystis Jirovecii using Bioinformatics Tools.

Sugumar R, Adithavarman A, Dakshinamoorthi A, David D, Ragunath P J Clin Diagn Res. 2016; 10(3):FC05-8.

PMID: 27134887 PMC: 4843273. DOI: 10.7860/JCDR/2016/16029.7374.

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Dahlin J, Nissink J, Francis S, Strasser J, John K, Zhang Z Bioorg Med Chem Lett. 2015; 25(21):4740-4752.

PMID: 26318992 PMC: 6002837. DOI: 10.1016/j.bmcl.2015.08.020.

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