TY - JOUR
T1 - Involvement of AAA ATPase AipA in endocytosis of the arginine permease AoCan1 depending on AoAbp1 in Aspergillus oryzae
AU - Hiasa, Reiko
AU - Kakimoto, Ken ichi
AU - Takegawa, Kaoru
AU - Higuchi, Yujiro
N1 - Funding Information:
We would like to thank the Center for Advanced Instrumental and Educated Supports at Faculty of Agriculture, Kyushu University for technical help with fluorescence microscopy. We also would like to thank Drs. Yoshinori Katakura and Kiichiro Teruya for technical supports in qRT-PCR analysis and ATPase assay, respectively. This study was supported in part by JSPS KAKENHI [Grant No. JP19H02874 (Y.H.)] and the Sasakawa Scientific Research Grant from The Japan Science Society (R.H.).
Publisher Copyright:
© 2021 British Mycological Society
PY - 2022/2
Y1 - 2022/2
N2 - AAA ATPases widely exist in many organisms and function in various organelles. However, there is little information about AAA ATPase functioning in endocytosis. In Aspergillus oryzae, we previously discovered a putative AAA ATPase AipA that would be involved in endocytosis. Here, we further examined the function of AipA and AoAbp1 in endocytosis using enhanced green fluorescent protein (EGFP)-tagged arginine permease AoCan1 as an endocytic marker. In the ΔaipA strain, endocytosis of AoCan1-EGFP was more facilitated than the control strain, suggesting that AipA negatively regulates endocytosis. In contrast, in the ΔAoabp1 strain, endocytosis of AoCan1-EGFP was delayed compared with the control strain, suggesting that AoAbp1 positively functions in endocytosis. In addition, in the ΔaipAΔAoabp1 strain, endocytosis of AoCan1-EGFP was delayed. AipA localized at the endocytic collar of the hyphal tip, only in the presence of AoAbp1, suggesting AipA functions downstream of AoAbp1 in endocytosis. Moreover, we investigated the aipA-overexpressing strain, and found that endocytosis of AoCan1-EGFP was inhibited. Furthermore, we examined strains expressing aipAK542A or aipAE596Q, which decreased ATPase activity, in the backgrounds of complementation or overexpression, respectively, and found that AoCan1-EGFP endocytosis was promoted. These results suggested that AAA ATPase activity of AipA is important for its function in endocytosis.
AB - AAA ATPases widely exist in many organisms and function in various organelles. However, there is little information about AAA ATPase functioning in endocytosis. In Aspergillus oryzae, we previously discovered a putative AAA ATPase AipA that would be involved in endocytosis. Here, we further examined the function of AipA and AoAbp1 in endocytosis using enhanced green fluorescent protein (EGFP)-tagged arginine permease AoCan1 as an endocytic marker. In the ΔaipA strain, endocytosis of AoCan1-EGFP was more facilitated than the control strain, suggesting that AipA negatively regulates endocytosis. In contrast, in the ΔAoabp1 strain, endocytosis of AoCan1-EGFP was delayed compared with the control strain, suggesting that AoAbp1 positively functions in endocytosis. In addition, in the ΔaipAΔAoabp1 strain, endocytosis of AoCan1-EGFP was delayed. AipA localized at the endocytic collar of the hyphal tip, only in the presence of AoAbp1, suggesting AipA functions downstream of AoAbp1 in endocytosis. Moreover, we investigated the aipA-overexpressing strain, and found that endocytosis of AoCan1-EGFP was inhibited. Furthermore, we examined strains expressing aipAK542A or aipAE596Q, which decreased ATPase activity, in the backgrounds of complementation or overexpression, respectively, and found that AoCan1-EGFP endocytosis was promoted. These results suggested that AAA ATPase activity of AipA is important for its function in endocytosis.
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U2 - 10.1016/j.funbio.2021.11.007
DO - 10.1016/j.funbio.2021.11.007
M3 - Article
C2 - 35078586
AN - SCOPUS:85120404478
SN - 1878-6146
VL - 126
SP - 149
EP - 161
JO - Mycological Research
JF - Mycological Research
IS - 2
ER -
