Abstract
Aspergillus oryzae has been utilized as a host for heterologous protein production because of its high protein secretory capacity and food-safety properties. However, A. oryzae often produces lower-than-expected yields of target heterologous proteins due to various underlying mechanisms, including degradation processes such as autophagy, which may be a significant bottleneck for protein production. In the present study, we examined the production of heterologous protein in several autophagy (Aoatg) gene disruptants of A. oryzae. We transformed A. oryzae gene disruptants of Aoatg1, Aoatg13, Aoatg4, Aoatg8, or Aoatg15, with a bovine chymosin (CHY) expression construct and found that the production levels of CHY increased up to three fold compared to the control strain. Notably, however, conidia formation by the Aoatg gene disruptants was significantly reduced. As large amounts of conidia are necessary for inoculating large-scale cultures, we also constructed Aoatg gene-conditional expression strains in which the promoter region of the Aoatg gene was replaced with the thiamine-controllable thiA promoter. Conidiation by the resultant transformants was clearly enhanced in the absence of thiamine, while autophagy remained repressed in the presence of thiamine. Moreover, these transformants displayed increased CHY productivity, which was comparable to that of the Aoatg gene disruptants. Consequently, we succeeded in the construction of A. oryzae strains capable of producing high levels of CHY due to defects in autophagy. Our finding suggests that the conditional regulation of autophagy is an effective method for increasing heterologous protein production in A. oryzae.
Highlights
The filamentous fungus Aspergillus oryzae (Ahlburg) Cohn has the ability to secrete large amounts of proteins and it has been safely used in the preparation of fermented foods for over a thousand year in Japan [1]
As we predicted that autophagy is a bottleneck for heterologous protein production by A. oryzae, we transformed several autophagy gene disruptants with a CHY expression construct and confirmed that the production levels of CHY increased up to 3 fold
The poor conidiation by autophagy gene disruptants to be used as hosts for heterologous protein production at the industrial scale is problematic, as sufficient numbers of conidia for inoculation are difficult to obtain
Summary
The filamentous fungus Aspergillus oryzae (Ahlburg) Cohn has the ability to secrete large amounts of proteins and it has been safely used in the preparation of fermented foods for over a thousand year in Japan [1]. Due to these merits, A. oryzae is generally considered to be an outstanding host for the production of heterologous proteins [2,3]. When heterologous proteins derived from higher organisms are expressed in A. oryzae, lowerthan-desired yields of the target protein are often obtained [4,5,6,7] These reduced yields are thought to result from bottlenecks in the transcription, translation, and secretory pathways of A. oryzae. Autophagy appears to be a significant process adversely affecting the production of heterologous proteins in A. oryzae
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