Literature DB >> 19451228

High-affinity transporters for NAD+ precursors in Candida glabrata are regulated by Hst1 and induced in response to niacin limitation.

Biao Ma1, Shih-Jung Pan, Renee Domergue, Tracey Rigby, Malcolm Whiteway, David Johnson, Brendan P Cormack.   

Abstract

The yeast Candida glabrata is an opportunistic pathogen of humans. C. glabrata is a NAD(+) auxotroph, and its growth depends on the availability of niacin (environmental vitamin precursors of NAD(+)). We have previously shown that a virulence-associated adhesin, encoded by EPA6, is transcriptionally induced in response to niacin limitation. Here we used transcript profiling to characterize the transcriptional response to niacin limitation and the roles of the sirtuins Hst1, Hst2, and Sir2 in mediating this response. The majority of genes transcriptionally induced by niacin limitation are regulated by Hst1, suggesting that it is the primary sensor of niacin limitation in C. glabrata. We show that three highly induced genes, TNA1, TNR1, and TNR2, encode transporters which are necessary and sufficient for high-affinity uptake of NAD(+) precursors. Strikingly, if a tna1 tnr1 tnr2 mutant is starved for niacin, it exhibits an extended lag phase, suggesting a central role for the transporters in restoring NAD(+) homeostasis after niacin limitation. Lastly, we had previously shown that the adhesin encoded by EPA6 is induced during experimental urinary tract infection (UTI); we show here that EPA6 transcriptional induction during UTI is strongly enhanced in the tna1 tnr1 tnr2 mutant strain, implicating the transporters in the growth of C. glabrata during infection.

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Year:  2009        PMID: 19451228      PMCID: PMC2715804          DOI: 10.1128/MCB.01461-08

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  25 in total

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Journal:  Mol Microbiol       Date:  2005-02       Impact factor: 3.501

2.  Cell cycle and checkpoint regulation of histone H3 K56 acetylation by Hst3 and Hst4.

Authors:  Nancy L Maas; Kyle M Miller; Lisa G DeFazio; David P Toczyski
Journal:  Mol Cell       Date:  2006-07-07       Impact factor: 17.970

3.  The sirtuins hst3 and Hst4p preserve genome integrity by controlling histone h3 lysine 56 deacetylation.

Authors:  Ivana Celic; Hiroshi Masumoto; Wendell P Griffith; Pamela Meluh; Robert J Cotter; Jef D Boeke; Alain Verreault
Journal:  Curr Biol       Date:  2006-07-11       Impact factor: 10.834

4.  Enhanced gluconeogenesis and increased energy storage as hallmarks of aging in Saccharomyces cerevisiae.

Authors:  S S Lin; J K Manchester; J I Gordon
Journal:  J Biol Chem       Date:  2001-07-18       Impact factor: 5.157

5.  Nicotinic acid limitation regulates silencing of Candida adhesins during UTI.

Authors:  Renee Domergue; Irene Castaño; Alejandro De Las Peñas; Margaret Zupancic; Virginia Lockatell; J Richard Hebel; David Johnson; Brendan P Cormack
Journal:  Science       Date:  2005-03-17       Impact factor: 47.728

Review 6.  Methods for biochemical study of poly(ADP-ribose) metabolism in vitro and in vivo.

Authors:  G M Shah; D Poirier; C Duchaine; G Brochu; S Desnoyers; J Lagueux; A Verreault; J C Hoflack; J B Kirkland; G G Poirier
Journal:  Anal Biochem       Date:  1995-05-01       Impact factor: 3.365

7.  Telomere length control and transcriptional regulation of subtelomeric adhesins in Candida glabrata.

Authors:  Irene Castaño; Shih-Jung Pan; Margaret Zupancic; Christophe Hennequin; Bernard Dujon; Brendan P Cormack
Journal:  Mol Microbiol       Date:  2005-02       Impact factor: 3.501

8.  An adhesin of the yeast pathogen Candida glabrata mediating adherence to human epithelial cells.

Authors:  B P Cormack; N Ghori; S Falkow
Journal:  Science       Date:  1999-07-23       Impact factor: 47.728

Review 9.  NAD+ metabolism in health and disease.

Authors:  Peter Belenky; Katrina L Bogan; Charles Brenner
Journal:  Trends Biochem Sci       Date:  2006-12-11       Impact factor: 13.807

10.  Assimilation of NAD(+) precursors in Candida glabrata.

Authors:  Biao Ma; Shih-Jung Pan; Margaret L Zupancic; Brendan P Cormack
Journal:  Mol Microbiol       Date:  2007-08-28       Impact factor: 3.501
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  14 in total

1.  Comparative genomics and functional analysis of the NiaP family uncover nicotinate transporters from bacteria, plants, and mammals.

Authors:  Linda Jeanguenin; Aurora Lara-Núñez; Dmitry A Rodionov; Andrei L Osterman; Nataliya Y Komarova; Doris Rentsch; Jesse F Gregory; Andrew D Hanson
Journal:  Funct Integr Genomics       Date:  2011-09-28       Impact factor: 3.410

2.  The Chromatin and Transcriptional Landscape of Native Saccharomyces cerevisiae Telomeres and Subtelomeric Domains.

Authors:  Aisha Ellahi; Deborah M Thurtle; Jasper Rine
Journal:  Genetics       Date:  2015-03-30       Impact factor: 4.562

Review 3.  Reinventing heterochromatin in budding yeasts: Sir2 and the origin recognition complex take center stage.

Authors:  Meleah A Hickman; Cara A Froyd; Laura N Rusche
Journal:  Eukaryot Cell       Date:  2011-07-15

Review 4.  Azole Resistance in Candida glabrata.

Authors:  Sarah G Whaley; P David Rogers
Journal:  Curr Infect Dis Rep       Date:  2016-12       Impact factor: 3.725

5.  Tec1 and Ste12 transcription factors play a role in adaptation to low pH stress and biofilm formation in the human opportunistic fungal pathogen Candida glabrata.

Authors:  Divya Purohit; Devarshi Gajjar
Journal:  Int Microbiol       Date:  2022-07-12       Impact factor: 3.097

6.  Mutants in the Candida glabrata glycerol channels are sensitized to cell wall stress.

Authors:  Sara E Beese-Sims; Shih-Jung Pan; Jongmin Lee; Elizabeth Hwang-Wong; Brendan P Cormack; David E Levin
Journal:  Eukaryot Cell       Date:  2012-10-19

Review 7.  From Saccharomyces cerevisiae to Candida glabratain a few easy steps: important adaptations for an opportunistic pathogen.

Authors:  Andreas Roetzer; Toni Gabaldón; Christoph Schüller
Journal:  FEMS Microbiol Lett       Date:  2010-09-16       Impact factor: 2.742

8.  Histatin 5 resistance of Candida glabrata can be reversed by insertion of Candida albicans polyamine transporter-encoding genes DUR3 and DUR31.

Authors:  Swetha Tati; Woong Sik Jang; Rui Li; Rohitashw Kumar; Sumant Puri; Mira Edgerton
Journal:  PLoS One       Date:  2013-04-22       Impact factor: 3.240

9.  Expression plasmids for use in Candida glabrata.

Authors:  Rebecca E Zordan; Yuxia Ren; Shih-Jung Pan; Giuseppe Rotondo; Alejandro De Las Peñas; Joseph Iluore; Brendan P Cormack
Journal:  G3 (Bethesda)       Date:  2013-10-03       Impact factor: 3.154

10.  Targeting NAD+ metabolism in the human malaria parasite Plasmodium falciparum.

Authors:  Jessica K O'Hara; Lewis J Kerwin; Simon A Cobbold; Jonathan Tai; Thomas A Bedell; Paul J Reider; Manuel Llinás
Journal:  PLoS One       Date:  2014-04-18       Impact factor: 3.240
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