Your search keyword '"Sahni, Nidhi"' showing total 152 results

151. Self-induction of a/a or alpha/alpha biofilms in Candida albicans is a pheromone-based paracrine system requiring switching.

Author

Yi S, Sahni N, Daniels KJ, Lu KL, Huang G, Srikantha T, and Soll DR

Subjects

Candida albicans genetics, Fungal Proteins metabolism, Gene Knockout Techniques, Genes, Fungal, Paracrine Communication, Phenotype, Pheromones metabolism, Receptors, Mating Factor metabolism, Transcription, Genetic, beta-Glucans metabolism, Biofilms, Candida albicans physiology, Fungal Proteins genetics, Genes, Mating Type, Fungal, Pheromones genetics

Abstract

Like MTL-heterozygous (a/α) cells, white MTL-homozygous (a/a or α/α) cells of Candida albicans, to which a minority of opaque cells of opposite mating type have been added, form thick, robust biofilms. The latter biofilms are uniquely stimulated by the pheromone released by opaque cells and are regulated by the mitogen-activated protein kinase signal transduction pathway. However, white MTL-homozygous cells, to which opaque cells of opposite mating type have not been added, form thinner biofilms. Mutant analyses reveal that these latter biofilms are self-induced. Self-induction of a/a biofilms requires expression of the α-receptor gene STE2 and the α-pheromone gene MFα, and self-induction of α/α biofilms requires expression of the a-receptor gene STE3 and the a-pheromone gene MFa. In both cases, deletion of WOR1, the master switch gene, blocks cells in the white phenotype and biofilm formation, indicating that self-induction depends upon low frequency switching from the white to opaque phenotype. These results suggest a self-induction scenario in which minority opaque a/a cells formed by switching secrete, in a mating-type-nonspecific fashion, α-pheromone, which stimulates biofilm formation through activation of the α-pheromone receptor of majority white a/a cells. A similar scenario is suggested for a white α/α cell population, in which minority opaque α/α cells secrete a-pheromone. This represents a paracrine system in which one cell type (opaque) signals a second highly related cell type (white) to undergo a complex response, in this case the formation of a unisexual white cell biofilm.

Published

2011

152. A Candida albicans-specific region of the alpha-pheromone receptor plays a selective role in the white cell pheromone response.

Author

Yi S, Sahni N, Pujol C, Daniels KJ, Srikantha T, Ma N, and Soll DR

Subjects

Amino Acid Sequence, Biofilms, Candida albicans genetics, Fungal Proteins genetics, Gene Expression Regulation, Fungal, Mitogen-Activated Protein Kinases metabolism, Molecular Sequence Data, Receptors, Mating Factor genetics, Sequence Alignment, Sequence Deletion, Signal Transduction, Candida albicans physiology, Fungal Proteins metabolism, Genes, Mating Type, Fungal, Pheromones metabolism, Receptors, Mating Factor metabolism

Abstract

Candida albicans strains homozygous at the mating type locus can switch from white to opaque, and must do so to mate. Opaque cells then secrete mating pheromones that stimulate opaque cells of opposite mating type to undergo mating. These same pheromones stimulate mating-incompetent white cells to become cohesive and adhesive, and enhance white cell biofilm development, a pathogenic trait. Stimulation is mediated through the same receptor, G protein complex and mitogen-activated protein kinase pathway. Here we present evidence that a C. albicans-specific 55-amino-acid region of the first intracellular loop, IC1, of the alpha-pheromone receptor Ste2p, is required for the alpha-pheromone response of white cells, but not that of opaque cells. This represents a unique regulatory configuration in which activation of a common pathway by the same ligand, the same receptor and the same signal transduction pathway is dependent on a unique region of an intracellular loop of the common receptor in one of the two responding phenotypes.

Published

2009