GABARAP Like-1 enrichment on membranes: Direct observation of trans-homo-oligomerization between membranes and curvature-dependent partitioning into membrane tubules

Motta, Isabelle; Nguyen, Nathan; Gardavot, Hélène; Richerson, Diana; Pincet, Frédéric; Melia, Thomas J.

doi:10.1101/348730

Cited by 4 publications

(6 citation statements)

References 41 publications

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“…The mechanism of this lipidation effect in autophagy closure is not fully understood, but appears to be GABARAP-speci c, as depletion of all LC3 has no effect on starvation-induced autophagy ux, but depletion of all GABARAP inhibits this effect [12,39] . In addition, GABARAP proteins can bridge some of the divisional pores left by the nal phase of autophagosome closure to facilitate organelle closure, consistent with the idea that lipidized GABARAPL1 accumulates at sites of high curvature and membrane-to-membrane juxtaposition [40] GABARAP speci cally recruits PLEKHM1 in the nal phase and mediates HOPS recruitment to drive autophagylysosomal fusion [16] , In cells lacking all GABARAP proteins after knockdown, PLEKHM1 was not recruited at the membrane [41] , Also leads to failure of mutual fusion between autophagosomes and lysosomes to degrade substrates that are encapsulated by autophagosomes [42] . The GABARAP subfamily is essential for the later stages of autophagy cell maturation [43] .…”

Section: Results Of Cox Regression Multifactor Analysissupporting

confidence: 74%

Association of γ-aminobutyric acid type A receptor-associated protein with prognosis in patients after radical pancreatic cancer treatment

Chao

Tang

et al. 2020

Preprint

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Purpose: To discuss the value and possible causes of γ-aminobutyric acid type A receptor-associated protein (GABARAP) expression and multiple clinicopathological factors in the prognosis of patients after radical pancreatic cancer treatment.Methods: The pancreatic tissues of 76 pancreatic cancer patients after R0 resection were screened according to the criteria, and the expression levels of GABARAP were determined by using immunohistochemistry (MaxVision) to label the pancreatic cancer tissues and normal pancreatic tissues at the peri-cancer level in these two types of specimens, and the relationship between GABARAP and other factors and the disease-free and overall survival of patients after radical pancreatic cancer treatment was evaluated by single factor survival analysis and Cox regression analysis.Results：The expression ratio of GABARAP in pancreatic cancer tissue was 55.26% (42/76), which was drastically higher than that in normal pancreatic tissue adjacent to cancer (21.42% (12/76). In 76 patients, the middle relapse-free survival time after radical operation for pancreatic cancer was 12.8 months, and the middle overall survival time was 17.8 months. Forty-one patients found relapse on CT, and the recurrence site: local recurrence accounted for 17.1% (7/41) Distant metastasis accounted for 78.0% (32/41), and local recurrence with distant metastasis accounted for 4.9% (2/41). Among the three recurrence methods, there was no drastical difference in survival time from relapse to death (P> 0.05). Cox regression model evaluation showed that GABARAP (P = 0.044) and postoperative adjuvant chemotherapy (P = 0.038) were the overall survival of patients after radical pancreatic cancer Period independent prognostic indicators and both are protective factors for the prognosis of pancreatic cancer patients. Further data analysis found that postoperative chemotherapy had no drastical effect on the relapse-free survival and overall survival of 42 GABARAP-positive patients with cancer tissue, while in 34 GABARAP-negative patients, postoperative chemotherapy drastically increased the total patient Survival period (P = 0.041) but had no drastical effect on the patient's relapse-free survival periodConclusion: The expression of GABARAP in pancreatic cancer tissues was drastically up-regulated, and patients with high expression of GABARAP in pancreatic cancer tissues had better prognosis, but had no drastical effect on the relapse-free survival of patients after radical operation of pancreatic cancer. The expression of GABARAP in pancreatic cancer tissues and Postoperative adjuvant chemotherapy is an independent indicator of patients' prognosis after radical pancreatic cancer resection. Both are protective factors. The high expression of GABARAP in pancreatic cancer may indicate that the adjuvant chemotherapy is low benefit.

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Section: Results Of Cox Regression Multifactor Analysissupporting

confidence: 74%

Association of γ-aminobutyric acid type A receptor-associated protein with prognosis in patients after radical pancreatic cancer treatment

Chao

Tang

et al. 2020

Preprint

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“…An interaction was only observed in the case of the LC3B-lipidated LD (Figures 6G and 6H). Pulling the two objects apart led to the deformation of the vesicle into a tubule connecting it to the LC3B-lipidated droplet (Figure 6G), indicating the tethering of the two interfaces, as previously observed 62 , and, eventually, their subsequent merge and physical contiguity 65 .…”

Section: Large Lc3b-positive Lds Exhibit Tight Contact With Lc3b-cont...supporting

confidence: 75%

LC3B is lipidated to large lipid droplets during prolonged starvation for noncanonical autophagy

et al. 2023

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“…Because Atg8/ATG8 proteins can tether or fuse small liposomes in vitro ( Nair et al, 2011 ; Nakatogawa et al, 2007 ; Weidberg et al, 2011 ), one possible model is that ATG8 proteins are part of the machinery needed to fuse vesicles to drive membrane expansion. Notably, in vitro, these proteins tether membranes only in a topologically restricted trans conformation ( Motta et al, 2018 ), and they drive lipid-mixing only if the membranes exhibit strongly destabilized lipid packing ( Nair et al, 2011 ). Thus if they drive fusion in vivo, lipidated Atg8 would need to be present on both the incoming vesicle and expanding phagophore at sites where one or both of these membranes were “prone” to fuse, perhaps because of high local curvature or high surface densities of fusogenic lipids.…”

Section: Introductionmentioning

confidence: 99%

Autophagosome biogenesis: From membrane growth to closure

Melia

Lystad

Simonsen

2020

Journal of Cell Biology

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234

194

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Autophagosome biogenesis involves de novo formation of a membrane that elongates to sequester cytoplasmic cargo and closes to form a double-membrane vesicle (an autophagosome). This process has remained enigmatic since its initial discovery >50 yr ago, but our understanding of the mechanisms involved in autophagosome biogenesis has increased substantially during the last 20 yr. Several key questions do remain open, however, including, What determines the site of autophagosome nucleation? What is the origin and lipid composition of the autophagosome membrane? How is cargo sequestration regulated under nonselective and selective types of autophagy? This review provides key insight into the core molecular mechanisms underlying autophagosome biogenesis, with a specific emphasis on membrane modeling events, and highlights recent conceptual advances in the field.

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GABARAP Like-1 enrichment on membranes: Direct observation of trans-homo-oligomerization between membranes and curvature-dependent partitioning into membrane tubules

Cited by 4 publications

References 41 publications

Association of γ-aminobutyric acid type A receptor-associated protein with prognosis in patients after radical pancreatic cancer treatment

Association of γ-aminobutyric acid type A receptor-associated protein with prognosis in patients after radical pancreatic cancer treatment

LC3B is lipidated to large lipid droplets during prolonged starvation for noncanonical autophagy

Autophagosome biogenesis: From membrane growth to closure

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