Data di Pubblicazione:
2016
Abstract:
The fungal genus Sporothrix comprises a group of thermodimorphic pathogens that cause sporotrichosis, a
(sub)cutaneous infection of humans and felines. The disease is
worldwide distributed and results from two major infection
routes: animal transmission and plant origin. S. schenckii is
the classical pathogen of the group. The infectious species
compose a “pathogenic clade” in the genus Sporothrix, with
S. brasiliensis, S. globosa and S. luriei as members. However,
the genus also contains occasional opportunists, such as S.
pallida and S. mexicana, which have a much lower potential
to cause infection in mammals. In this study we performed
phenotypic tests to investigate on the oxidative stress response
among pathogenic and non-pathogenic Sporothrix species. A
total of 68 strains, isolated from humans, from cats and from
the environment were examined. The identity of all strains was
verified using partial sequencing of the calmodulin-encoding
gene. Subsequently they were inoculated in yeast extract peptone
dextrose agar with and without H2O2 (6 mM). The results
revealed that the non-pathogenic strains (S. pallida and S.
mexicana) were able to grow in the presence of H2O2, whereas
pathogenic species showed different responses to oxidative
stress. All S. schenckii strains were unable to grow in
YEPD + H2O2 whereas 58.8% of S. brasiliensis and 66.6% of
S. globosa strains grew well under these conditions. Overall
our data showed that Sporothrix species respond in a different
manner to oxidative stress and suggest further studies,
especially to molecular level, to decipher the gene regulatory
network involved in this phenomenon.
(sub)cutaneous infection of humans and felines. The disease is
worldwide distributed and results from two major infection
routes: animal transmission and plant origin. S. schenckii is
the classical pathogen of the group. The infectious species
compose a “pathogenic clade” in the genus Sporothrix, with
S. brasiliensis, S. globosa and S. luriei as members. However,
the genus also contains occasional opportunists, such as S.
pallida and S. mexicana, which have a much lower potential
to cause infection in mammals. In this study we performed
phenotypic tests to investigate on the oxidative stress response
among pathogenic and non-pathogenic Sporothrix species. A
total of 68 strains, isolated from humans, from cats and from
the environment were examined. The identity of all strains was
verified using partial sequencing of the calmodulin-encoding
gene. Subsequently they were inoculated in yeast extract peptone
dextrose agar with and without H2O2 (6 mM). The results
revealed that the non-pathogenic strains (S. pallida and S.
mexicana) were able to grow in the presence of H2O2, whereas
pathogenic species showed different responses to oxidative
stress. All S. schenckii strains were unable to grow in
YEPD + H2O2 whereas 58.8% of S. brasiliensis and 66.6% of
S. globosa strains grew well under these conditions. Overall
our data showed that Sporothrix species respond in a different
manner to oxidative stress and suggest further studies,
especially to molecular level, to decipher the gene regulatory
network involved in this phenomenon.
Tipologia CRIS:
14.d.1 Abstract in Atti di convegno
Keywords:
sporotrichosis, oxidative stress
Elenco autori:
Barresi, Cinzia; Orlando, Maria Grazia; Felice, Maria Rosa; Barreca, Davide; Criseo, Giuseppe; Gerrits van den Ende, Ahg; van Diepeningen, Anne; de Hoog, G. Sybren; Romeo, Orazio
Link alla scheda completa:
Titolo del libro:
Journal of Biological Research
Pubblicato in: