iScience (May 2023)

Protein quality control machinery supports primary ciliogenesis by eliminating GDP-bound Rab8-family GTPases

  • Toshiki Takahashi,
  • Jun Shirai,
  • Miyo Matsuda,
  • Sae Nakanaga,
  • Shin Matsushita,
  • Kei Wakita,
  • Mizuki Hayashishita,
  • Rigel Suzuki,
  • Aya Noguchi,
  • Naoto Yokota,
  • Hiroyuki Kawahara

Journal volume & issue
Vol. 26, no. 5
p. 106652

Abstract

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Summary: The small GTPase Rab8 plays a vital role in the vesicular trafficking of cargo proteins from the trans-Golgi network to target membranes. Upon reaching its target destination, Rab8 is released from the vesicular membrane into the cytoplasm via guanosine triphosphate (GTP) hydrolysis. The fate of GDP-bound Rab8 released from the destination membranes, however, has not been investigated adequately. In this study, we found that GDP-bound Rab8 subfamily proteins are targeted for immediate degradation, and the pre-emptive quality control machinery is responsible for eliminating these proteins in a nucleotide-specific manner. We provide evidence that components of this quality control machinery have a critical role in vesicular trafficking events, including the formation of primary cilia, a process regulated by the Rab8 subfamily. These results suggest that the protein degradation machinery plays a critical role in the integrity of membrane trafficking by limiting the excessive accumulation of GDP-bound Rab8 subfamily proteins.

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