Candida Albicans SET1 Encodes a Histone 3 Lysine 4 Methyltransferase That Contributes to the Pathogenesis of Invasive Candidiasis

Overview

Journal Mol Microbiol

Specialties Microbiology
Molecular Biology

Date 2006 Apr 25

PMID 16629671

Citations 22

Authors

Suresh Babu Raman

M Hong Nguyen

Zongde Zhang

Shaoji Cheng

Hong Yan Jia

Nghe Weisner

Kenneth Iczkowski

Cornelius J Clancy

Affiliations

Soon will be listed here.

Abstract

Candida albicans causes diverse mucosal and systemic diseases. Although this versatility likely depends upon carefully co-ordinated gene expression, epigenetic regulation in C. albicans remains poorly characterized. Screening a genomic expression library, we identified C. albicans Set1p as an immunogenic protein with homology to a lysine histone methyltransferase of Saccharomyces cerevisiae. In this study, we demonstrated that total immunoglobulin, IgG and IgM titers against a unique Set1p N-terminal fragment were significantly higher among patients with disseminated candidiasis (DC) or oropharyngeal candidiasis than controls. Disruption of SET1 resulted in complete loss of methylation of histone 3 at lysine residue 4, hyperfilamentous growth under embedded conditions, less negative cell surface charges and diminished adherence to epithelial cells, effects that were reversed upon gene re-insertion at a disrupted locus. During murine DC, the null mutant was associated with prolonged survival and lower tissue burdens. Taken together, our findings suggest that SET1 regulates multiple processes important to the pathogenesis of candidiasis. The Set1p N-terminal fragment does not exhibit significant homology to eukaryotic or microbial proteins, and might represent a novel therapeutic, preventive or diagnostic target.

Citing Articles

HK Methylation and Demethylation in Fungal Pathogens: The Epigenetic Toolbox for Survival and Adaptation in the Host.

Rai M, Rai R Pathogens. 2025; 13(12.

PMID: 39770340 PMC: 11728789. DOI: 10.3390/pathogens13121080.

Swd2/Cps35 determines H3K4 tri-methylation via interactions with Set1 and Rad6.

Oh J, Park S, Kim J, Yeom S, Lee J, Lee E BMC Biol. 2024; 22(1):105.

PMID: 38702628 PMC: 11069235. DOI: 10.1186/s12915-024-01903-3.

H3K4 methylation regulates development, DNA repair, and virulence in Mucorales.

Osorio-Concepcion M, Lax C, Lorenzo-Gutierrez D, Canovas-Marquez J, Tahiri G, Navarro E IMA Fungus. 2024; 15(1):6.

PMID: 38481304 PMC: 10938801. DOI: 10.1186/s43008-023-00136-3.

The COMPASS Complex Regulates Fungal Development and Virulence through Histone Crosstalk in the Fungal Pathogen .

Liu R, Chen X, Zhao F, Jiang Y, Lu Z, Ji H J Fungi (Basel). 2023; 9(6).

PMID: 37367608 PMC: 10301970. DOI: 10.3390/jof9060672.

The Set1 Histone H3K4 Methyltransferase Contributes to Azole Susceptibility in a Species-Specific Manner by Differentially Altering the Expression of Drug Efflux Pumps and the Ergosterol Gene Pathway.

Baker K, Hoda S, Saha D, Gregor J, Georgescu L, Serratore N Antimicrob Agents Chemother. 2022; 66(5):e0225021.

PMID: 35471041 PMC: 9112889. DOI: 10.1128/aac.02250-21.