Affiliation:
1. Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, North Carolina, USA
Abstract
ABSTRACT
Cryptococcus neoformans
is a human-pathogenic basidiomycete that commonly infects HIV/AIDS patients to cause meningoencephalitis (7, 19).
C. neoformans
grows as a budding yeast during vegetative growth or as hyphae during sexual reproduction. Pseudohyphal growth of
C. neoformans
has been observed rarely during murine and human infections but frequently during coculture with amoeba; however, the genetics underlying pseudohyphal growth are largely unknown. Our studies found that
C. neoformans
displays pseudohyphal growth under nitrogen-limiting conditions, especially when a small amount of ammonium is available as a sole nitrogen source. Pseudohyphal growth was observed with
Cryptococcus neoformans
serotypes A and D and
Cryptococcus gattii. C. neoformans
pseudohyphae bud to produce yeast cells and normal smooth hemispherical colonies when transferred to complete media, indicating that pseudohyphal growth is a conditional developmental stage. Subsequent analysis revealed that two ammonium permeases encoded by the
AMT1
and
AMT2
genes are required for pseudohyphal growth. Both
amt1
and
amt2
mutants are capable of forming pseudohyphae; however,
amt1 amt2
double mutants do not form pseudohyphae. Interestingly,
C. gattii
pseudohypha formation is irreversible and involves a RAM pathway mutation that drives pseudohyphal development. We also found that pseudohyphal growth is related to the invasive growth into the medium. These results demonstrate that pseudohyphal growth is a common reversible growth pattern in
C. neoformans
but a mutational genetic event in
C. gattii
and provide new insights into understanding pseudohyphal growth of
Cryptococcus
.
Publisher
American Society for Microbiology
Subject
Molecular Biology,General Medicine,Microbiology
Cited by
31 articles.
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