Stimulation of hyphal growth in anaerobic cultures of Mucor rouxii by extracellular trehalose. Relevance of cell wall-bound activity of acid trehalase for trehalose utilization

In fungi, the hydrolysis of extracellular trehalose is carried out by acid trehalases. These secretory glycoproteins may be more abundant either in the vacuolar compartment, like in yeast, or at the cell surface, such as in many filamentous fungi. The relative efficiency of these two compartments fo...

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Bibliographic Details
Published in:FEMS microbiology letters 2000, Vol.182 (1), p.9-13
Main Authors: Lucio, A.K.B, Lourdes, M. de, Polizeli, T.M, Jorge, J.A, Terenzi, H.F
Format: Article
Language:English
Subjects:
Acid trehalase
Acids
air
Anaerobiosis
Biological and medical sciences
carbon
Carbon dioxide
Cell surface
Cell wall
Cell Wall - enzymology
Cell walls
Culture Media
Dimorphism
Enzyme Induction
Exhaustion
Fundamental and applied biological sciences. Psychology
Fungi
germ tube
Germ tubes
Glucose
Glucose - metabolism
Glycoproteins
Growth, nutrition, metabolism, transports, enzymes. Molecular biology
hydrolysis
Hyphae
Intracellular
Localization
Microbiology
Mucor
Mucor - growth & development
Mucor - metabolism
Mucor - ultrastructure
Mucor rouxii
Mycology
trehalase
Trehalase - metabolism
Trehalose
Trehalose - metabolism
Tubes
Utilization
vacuoles
Yeast
Yeasts
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Summary:In fungi, the hydrolysis of extracellular trehalose is carried out by acid trehalases. These secretory glycoproteins may be more abundant either in the vacuolar compartment, like in yeast, or at the cell surface, such as in many filamentous fungi. The relative efficiency of these two compartments for the utilization of extracellular trehalose was investigated using as a model the dimorphic fungus Mucor rouxii, which produces yeast-like cells under a CO2 atmosphere, or hyphae in the presence of air. Under CO2, cultures supplemented with glucose produced yeast-like cells devoid of acid trehalase activity. On the other hand, trehalose-supplemented cultures developed hyphae exhibiting cell wall-bound and intracellular acid trehalase activity. Glucose-grown yeast-like cells supplemented with trehalose after glucose exhaustion, induced intracellular activity of acid trehalase, but no activity was detected at the cell surface. Even endowed of significant intracellular activity of acid trehalase, these cells did not grow further. When exposed to air these yeast-like produced germ tubes exhibiting cell wall-bound acid trehalase activity. These results suggest that the utilization of extracellular trehalose as a source of carbon for growth requires the localization of acid trehalase activity at the cell surface. Our results also show that extracellular trehalose elicits a morphogenetic phenomenon, inducing the formation of hyphae which are the physiological support for acid trehalase activity.
ISSN:0378-1097
1574-6968
DOI:10.1111/j.1574-6968.2000.tb08865.x