Intracellular trafficking of fluorescently tagged proteins associated with pathogenesis in Candida albicans

Samuel A. Lee; Zachary Khalique; Cheryl A Gale; Brian Wong

doi:10.1080/13693780400013340

Intracellular trafficking of fluorescently tagged proteins associated with pathogenesis in Candida albicans

Samuel A. Lee, Zachary Khalique, Cheryl A Gale, Brian Wong

Pediatrics - Neonatology

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Proteins that enter the secretory pathway play important roles in virulence and pathogenesis in Candida albicans, but our understanding of the trafficking of these proteins is in its early stages. In Saccharomyces cerevisiae, dominant negative alleles of YPT1 and SEC4 interrupt secretory traffic at pre- and post-Golgi steps, respectively. We therefore used a dominant negative genetic approach to examine the intracellular trafficking of several proteins associated with virulence or azole resistance. When the dominant negative ypt1(N121I) allele of C. albicans was overexpressed, yellow-fluorescent protein (YFP) tagged forms of two plasma membrane transporters (Cdr1p and Ftr1p) and the vacuolar membrane ABC transporter Mlt1p accumulated in intracellular structures that appeared related to the ER, but localization of Cdc10p and Int1p was unaffected. When the dominant negative sec4(S28N) allele of C. albicans was overexpressed, Cdr1p and Ftr1p accumulated intracellularly, and localization of Mlt1p, Cdc10p and Int1p was unaffected. These results imply that (i) Cdr1p and Ftr1p are transported to the plasma membrane by the general secretory pathway, (ii) Mlt1p enters the secretory pathway but is diverted to the vacuole at an early post-Golgi step, and (iii) like Cdc10p, Int1p does not enter the general secretory pathway.

Original language	English (US)
Pages (from-to)	423-430
Number of pages	8
Journal	Medical mycology
Volume	43
Issue number	5
DOIs	https://doi.org/10.1080/13693780400013340
State	Published - Aug 2005

Bibliographical note

Funding Information:
This work was supported by grants from the Department of Veterans’ Affairs (Career Development Award to S.A.L. and Merit Review Award to B.W.) and the National Institute of Allergy and Infectious Diseases (RO1-AI47442 to B.W. and KO8-AI01712 to C.G.). Sequencing of Candida albicans was accomplished with the support of the NIDR and the Burroughs Wellcome Fund. We thank the Galar Fungail Consortium for CandidaDB, and the Stanford Genome Technology Center for the Candida albicans genome sequencing project. Sequence data for Candida albicans was obtained from the Stanford Genome Technology Center website (http://www.sequence.stanford.edu/ group/candida). We thank Vasker Bhattacherjee, Margaret Hostetter, Keith Joiner, Peter Novick and Craig Roy, Yale University, for valuable advice.

Keywords

Candida albicans
Protein secretion
SECY
YPT1
Yellow fluorescent protein

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title = "Intracellular trafficking of fluorescently tagged proteins associated with pathogenesis in Candida albicans",

abstract = "Proteins that enter the secretory pathway play important roles in virulence and pathogenesis in Candida albicans, but our understanding of the trafficking of these proteins is in its early stages. In Saccharomyces cerevisiae, dominant negative alleles of YPT1 and SEC4 interrupt secretory traffic at pre- and post-Golgi steps, respectively. We therefore used a dominant negative genetic approach to examine the intracellular trafficking of several proteins associated with virulence or azole resistance. When the dominant negative ypt1(N121I) allele of C. albicans was overexpressed, yellow-fluorescent protein (YFP) tagged forms of two plasma membrane transporters (Cdr1p and Ftr1p) and the vacuolar membrane ABC transporter Mlt1p accumulated in intracellular structures that appeared related to the ER, but localization of Cdc10p and Int1p was unaffected. When the dominant negative sec4(S28N) allele of C. albicans was overexpressed, Cdr1p and Ftr1p accumulated intracellularly, and localization of Mlt1p, Cdc10p and Int1p was unaffected. These results imply that (i) Cdr1p and Ftr1p are transported to the plasma membrane by the general secretory pathway, (ii) Mlt1p enters the secretory pathway but is diverted to the vacuole at an early post-Golgi step, and (iii) like Cdc10p, Int1p does not enter the general secretory pathway.",

keywords = "Candida albicans, Protein secretion, SECY, YPT1, Yellow fluorescent protein",

author = "Lee, {Samuel A.} and Zachary Khalique and Gale, {Cheryl A} and Brian Wong",

note = "Funding Information: This work was supported by grants from the Department of Veterans{\textquoteright} Affairs (Career Development Award to S.A.L. and Merit Review Award to B.W.) and the National Institute of Allergy and Infectious Diseases (RO1-AI47442 to B.W. and KO8-AI01712 to C.G.). Sequencing of Candida albicans was accomplished with the support of the NIDR and the Burroughs Wellcome Fund. We thank the Galar Fungail Consortium for CandidaDB, and the Stanford Genome Technology Center for the Candida albicans genome sequencing project. Sequence data for Candida albicans was obtained from the Stanford Genome Technology Center website (http://www.sequence.stanford.edu/ group/candida). We thank Vasker Bhattacherjee, Margaret Hostetter, Keith Joiner, Peter Novick and Craig Roy, Yale University, for valuable advice.",

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T1 - Intracellular trafficking of fluorescently tagged proteins associated with pathogenesis in Candida albicans

AU - Lee, Samuel A.

AU - Khalique, Zachary

AU - Gale, Cheryl A

AU - Wong, Brian

N1 - Funding Information: This work was supported by grants from the Department of Veterans’ Affairs (Career Development Award to S.A.L. and Merit Review Award to B.W.) and the National Institute of Allergy and Infectious Diseases (RO1-AI47442 to B.W. and KO8-AI01712 to C.G.). Sequencing of Candida albicans was accomplished with the support of the NIDR and the Burroughs Wellcome Fund. We thank the Galar Fungail Consortium for CandidaDB, and the Stanford Genome Technology Center for the Candida albicans genome sequencing project. Sequence data for Candida albicans was obtained from the Stanford Genome Technology Center website (http://www.sequence.stanford.edu/ group/candida). We thank Vasker Bhattacherjee, Margaret Hostetter, Keith Joiner, Peter Novick and Craig Roy, Yale University, for valuable advice.

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N2 - Proteins that enter the secretory pathway play important roles in virulence and pathogenesis in Candida albicans, but our understanding of the trafficking of these proteins is in its early stages. In Saccharomyces cerevisiae, dominant negative alleles of YPT1 and SEC4 interrupt secretory traffic at pre- and post-Golgi steps, respectively. We therefore used a dominant negative genetic approach to examine the intracellular trafficking of several proteins associated with virulence or azole resistance. When the dominant negative ypt1(N121I) allele of C. albicans was overexpressed, yellow-fluorescent protein (YFP) tagged forms of two plasma membrane transporters (Cdr1p and Ftr1p) and the vacuolar membrane ABC transporter Mlt1p accumulated in intracellular structures that appeared related to the ER, but localization of Cdc10p and Int1p was unaffected. When the dominant negative sec4(S28N) allele of C. albicans was overexpressed, Cdr1p and Ftr1p accumulated intracellularly, and localization of Mlt1p, Cdc10p and Int1p was unaffected. These results imply that (i) Cdr1p and Ftr1p are transported to the plasma membrane by the general secretory pathway, (ii) Mlt1p enters the secretory pathway but is diverted to the vacuole at an early post-Golgi step, and (iii) like Cdc10p, Int1p does not enter the general secretory pathway.

AB - Proteins that enter the secretory pathway play important roles in virulence and pathogenesis in Candida albicans, but our understanding of the trafficking of these proteins is in its early stages. In Saccharomyces cerevisiae, dominant negative alleles of YPT1 and SEC4 interrupt secretory traffic at pre- and post-Golgi steps, respectively. We therefore used a dominant negative genetic approach to examine the intracellular trafficking of several proteins associated with virulence or azole resistance. When the dominant negative ypt1(N121I) allele of C. albicans was overexpressed, yellow-fluorescent protein (YFP) tagged forms of two plasma membrane transporters (Cdr1p and Ftr1p) and the vacuolar membrane ABC transporter Mlt1p accumulated in intracellular structures that appeared related to the ER, but localization of Cdc10p and Int1p was unaffected. When the dominant negative sec4(S28N) allele of C. albicans was overexpressed, Cdr1p and Ftr1p accumulated intracellularly, and localization of Mlt1p, Cdc10p and Int1p was unaffected. These results imply that (i) Cdr1p and Ftr1p are transported to the plasma membrane by the general secretory pathway, (ii) Mlt1p enters the secretory pathway but is diverted to the vacuole at an early post-Golgi step, and (iii) like Cdc10p, Int1p does not enter the general secretory pathway.

KW - Candida albicans

KW - Protein secretion

KW - SECY

KW - YPT1

KW - Yellow fluorescent protein

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JO - Medical mycology

JF - Medical mycology

IS - 5

ER -

Intracellular trafficking of fluorescently tagged proteins associated with pathogenesis in Candida albicans

Abstract

Bibliographical note

Keywords

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