Overexpression of a Dominant-Negative Allele of SEC4 Inhibits Growth and Protein Secretion in Candida albicans

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Journal of Bacteriology, December 1999, p. 7235-7242, Vol. 181, No. 23
0021-9193/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

Overexpression of a Dominant-Negative Allele of SEC4 Inhibits Growth and Protein Secretion in Candida albicans

Yuxin Mao,¹ Vernon F. Kalb,¹ and Brian Wong²^,^*

Infectious Diseases Section, Department of Internal Medicine, Yale University School of Medicine, New Haven,¹ and Infectious Diseases Section, VA Connecticut Healthcare System, West Haven,² Connecticut

Received 5 April 1999/Accepted 15 September 1999

Candida albicans SEC4 was cloned by complementing the Saccharomyces cerevisiae sec4-8 mutation, and its deduced protein product(Sec4p) was 63% identical to S. cerevisiae Sec4p. One chromosomalSEC4 allele in C. albicans CAI4 was readily disrupted by homologousgene targeting, but efforts to disrupt the second allele yieldedno viable null mutants. Although this suggested that C. albicansSEC4 was essential, it provided no information about this gene'sfunctions. Therefore, we constructed a mutant sec4 allele encodingan amino acid substitution (Ser-28 $right-arrow$ Asn) analogous to the Ser-17 $right-arrow$ Asnsubstitution in a trans-dominant inhibitor of mammalian Ras protein.GAL1-regulated expression plasmids carrying the mutant sec4 allele(pS28N) had minimal effects in glucose-incubated C. albicans transformants,but six of nine transformants tested grew very slowly in galactose.Incubation of pS28N transformants in galactose also inhibitedsecretion of aspartyl protease (Sap) and caused 90-nm secretoryvesicles to accumulate intracellularly, and plasmid curing restoredgrowth and Sap secretion to wild-type levels. These results implythat C. albicans SEC4 is required for growth and protein secretionand that it functions at a later step in the protein secretionpathway than formation of post-Golgi secretory vesicles. Theyalso demonstrate the feasibility of using inducible dominant-negativealleles to define the functions of essential genes in C. albicans.

^* Corresponding author. Mailing address: Infectious Diseases Section, VA Connecticut Healthcare System, 950 Campbell Ave. (111-I),West Haven, CT 06516. Phone: (203) 937-3446. Fax: (203) 937-3476.E-mail: brian.wong{at}yale.edu.

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