Genome analysis of three Pneumocystis species reveals adaptation mechanisms to life exclusively in mammalian hosts

Liang Ma; Zehua Chen; Da Wei Huang; Geetha Kutty; Mayumi Ishihara; Honghui Wang; Amr Abouelleil; Lisa Bishop; Emma Davey; Rebecca Deng; Xilong Deng; Lin Fan; Giovanna Fantoni; Michael G. FitzGerald; Emile Gogineni; Jonathan M. Goldberg; Grace Handley; Xiaojun Hu; Charles Huber; Xiaoli Jiao; Kristine Jones; Joshua Z. Levin; Yueqin Liu; Pendexter Macdonald; Alexandre Melnikov; Castle Raley; Monica Sassi; Brad T. Sherman; Xiaohong Song; Sean M. Sykes; Bao Tran; Laura Walsh; Yun Xia; Jun Yang; Sarah Young; Qiandong Zeng; Xin Zheng; Robert M. Stephens; Chad Nusbaum; Bruce W. Birren; Parastoo Azadi; Richard A. Lempicki; Christina A. Cuomo; Joseph A. Kovacs

doi:10.1038/ncomms10740

Genome analysis of three Pneumocystis species reveals adaptation mechanisms to life exclusively in mammalian hosts

Liang Ma(National Institutes of Health Clinical Center), Zehua Chen(Broad Institute), Da Wei Huang(Leidos (United States)), Geetha Kutty(National Institutes of Health Clinical Center), Mayumi Ishihara(University of Georgia), Honghui Wang(National Institutes of Health Clinical Center), Amr Abouelleil(Broad Institute), Lisa Bishop(National Institutes of Health Clinical Center), Emma Davey(National Institutes of Health Clinical Center), Rebecca Deng(National Institutes of Health Clinical Center), Xilong Deng(National Institutes of Health Clinical Center), Lin Fan(Broad Institute), Giovanna Fantoni(National Institutes of Health Clinical Center), Michael G. FitzGerald(Broad Institute), Emile Gogineni(National Institutes of Health Clinical Center), Jonathan M. Goldberg(Broad Institute), Grace Handley(National Institutes of Health Clinical Center), Xiaojun Hu(Leidos (United States)), Charles Huber(National Institutes of Health Clinical Center), Xiaoli Jiao(Leidos (United States)), Kristine Jones(Leidos (United States)), Joshua Z. Levin(Broad Institute), Yueqin Liu(National Institutes of Health Clinical Center), Pendexter Macdonald(Broad Institute), Alexandre Melnikov(Broad Institute), Castle Raley(Leidos (United States)), Monica Sassi(National Institutes of Health Clinical Center), Brad T. Sherman(Leidos (United States)), Xiaohong Song(National Institutes of Health Clinical Center), Sean M. Sykes(Broad Institute), Bao Tran(Leidos (United States)), Laura Walsh(National Institutes of Health Clinical Center), Yun Xia(National Institutes of Health Clinical Center), Jun Yang(Leidos (United States)), Sarah Young(Broad Institute), Qiandong Zeng(Broad Institute), Xin Zheng(Leidos (United States)), Robert M. Stephens(Leidos (United States)), Chad Nusbaum(Broad Institute), Bruce W. Birren(Broad Institute), Parastoo Azadi(University of Georgia), Richard A. Lempicki(Leidos (United States)), Christina A. Cuomo(Broad Institute), Joseph A. Kovacs(National Institutes of Health Clinical Center)

Nature Communications

February 22, 2016

10.1038/ncomms10740

Cited by 200Open Access

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Abstract

Pneumocystis jirovecii is a major cause of life-threatening pneumonia in immunosuppressed patients including transplant recipients and those with HIV/AIDS, yet surprisingly little is known about the biology of this fungal pathogen. Here we report near complete genome assemblies for three Pneumocystis species that infect humans, rats and mice. Pneumocystis genomes are highly compact relative to other fungi, with substantial reductions of ribosomal RNA genes, transporters, transcription factors and many metabolic pathways, but contain expansions of surface proteins, especially a unique and complex surface glycoprotein superfamily, as well as proteases and RNA processing proteins. Unexpectedly, the key fungal cell wall components chitin and outer chain N-mannans are absent, based on genome content and experimental validation. Our findings suggest that Pneumocystis has developed unique mechanisms of adaptation to life exclusively in mammalian hosts, including dependence on the lungs for gas and nutrients and highly efficient strategies to escape both host innate and acquired immune defenses.

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