ライフサイエンスコーパス: macroautophagy

1 in B cell LAMP-2C expression did not impact macroautophagy.

2 apoptotic pathway requires the inhibition of macroautophagy.

3 iseases are associated with dysregulation of macroautophagy.

4 ly to its role in the degradative process of macroautophagy.

5 onserved and essential mediator of canonical macroautophagy.

6 cation compartment formation; and micro- and macroautophagy.

7 and intracellular components sequestered by macroautophagy.

8 tants were defective in ER-Golgi traffic and macroautophagy.

9 tion of the phagophore and in the process of macroautophagy.

10 mune response, chemotaxis, and regulation of macroautophagy.

11 shortage or organelle damage, cells undergo macroautophagy.

12 Their clearance requires macroautophagy.

13 lglycerol, and their metabolizing enzymes in macroautophagy.

14 naive T cells, two physiological inducers of macroautophagy.

15 nly proteasome-mediated proteolysis but also macroautophagy.

16 the ER-Golgi fusion machinery are needed for macroautophagy.

17 n functionally links ER stress responses and macroautophagy.

18 reby mitochondria are turned over is through macroautophagy.

19 ylation of lysosomal GFAP, with no change in macroautophagy.

20 e proteins via mechanisms acting upstream of macroautophagy.

21 e, and 3) reveal that vaults arrive early in macroautophagy.

22 asome, tauDeltaC is cleared predominantly by macroautophagy.

23 ivation of AMPK, which activates prosurvival macroautophagy.

24 at trigger cytoprotective detoxification via macroautophagy.

25 agments by selective autophagy, particularly macroautophagy.

26 umulation, neuroinflammation, and changes in macroautophagy.

27 ic contents to lysosomes for degradation via macroautophagy.

28 of Rapamycin (mTOR)-dependent suppression of macroautophagy.

29 of Ca(v)3.1 accompanied by the activation of macroautophagy.

30 of lysosomal biogenesis and up-regulation of macroautophagy.

31 ing catabolic pathways, particularly that of macroautophagy.

32 ion, the cell activates one or more forms of macroautophagy.

33 e show that the N-end rule pathway modulates macroautophagy.

34 complex, which is required for initiation of macroautophagy.

35 l lysosomes from autolysosomes formed during macroautophagy.

36 tion of the proteasome (bortezomib), but not macroautophagy (3-methyladenine), markedly increased PNP

37 When macroautophagy, a catabolic process that rids the cells

38 ER stress is also a strong inducer of macroautophagy, a cell-protective mechanism of self-degr

39 east partially attributable to regulation of macroautophagy, a highly conserved protein catabolism pa

40 Macroautophagy, a homeostatic process that shuttles cyto

41 us for this purpose, we assessed the role of macroautophagy, a process in which cytosolic proteins ar

42 NSAIDs are known to modulate macroautophagy, a process indispensable for intestinal h

43 has shown that WNV growth was independent of macroautophagy activation, but the role of the evolution

44 long been recognised for its involvement in macroautophagy activation, the underlying mechanisms and

45 n of intraneuronal aggregates containing the macroautophagy adapter proteins p62 and NBR1 in the neur

46 Up-regulation of macroautophagy alone is not sufficient to induce connexi

47 o regulate the cellular catabolic process of macroautophagy, although the precise mechanism whereby t

48 We investigated whether macroautophagy, an evolutionarily conserved cellular mec

49 ave pronounced effects on the fusion step of macroautophagy and affect the overall activity of this i

50 dysfunction was accompanied by impairment of macroautophagy and chaperone-mediated autophagy, increas

51 ss is mediated by distinct functions of both macroautophagy and CMA, indicating that impaired functio

52 degradation in mediating cross-talk between macroautophagy and CMA.

53 , we report a functional interaction between macroautophagy and Corticotropin Releasing Hormone (Crh)

54 found that ubiquilin is degraded during both macroautophagy and during chaperone-mediated autophagy (

55 cle fibers show a high level of constitutive macroautophagy and express MHC class II molecules upon i

56 dy were to determine whether NSAIDs impaired macroautophagy and how this affects macroautophagy-regul

57 Whether NSAIDs stimulate or repress macroautophagy and how this correlates with the clinical

58 Sec22 is also reported to function in macroautophagy and in formation of endoplasmic reticulum

59 This review discusses emerging concepts in macroautophagy and macroautophagy-independent processes

60 anism through which TNF-alpha regulates both macroautophagy and MHC class II expression and suggest t

61 P-2B regulates lysosome maturation to impact macroautophagy and phagocytosis.

62 Macroautophagy and selective autophagy (e.g., mitophagy,

63 que roles for GABARAP and LC3 subfamilies in macroautophagy and selective autophagy and demonstrates

64 ce of these phosphatases, starvation-induced macroautophagy and the cytoplasm-to-vacuole targeting pa

65 macroautophagic machinery, the regulation of macroautophagy and the process of cargo recognition in s

66 of plasma membrane connexin 43 targeted for macroautophagy and the sequence of events that trigger t

67 Ypt1 and its mammalian homolog Rab1 regulate macroautophagy and two other trafficking events: endopla

68 al tau levels, coincident with activation of macroautophagy and ubiquitin-proteosome pathways.

69 endritic pruning, elevated mTORC1 signaling, macroautophagy, and autism spectrum disorder.

70 Influenza infection triggered productive macroautophagy, and autophagy-dependent presentation was

71 cles, organelle degradation by mitophagy and macroautophagy, and in some cases transfer to glial cell

72 gosome formation is the most complex part of macroautophagy, and it is a dynamic event that likely in

73 3, a component of the molecular machinery of macroautophagy, and maintains phagocytosed antigens for

74 e proton pump, whereas Atg genes involved in macroautophagy are dispensable for crinophagy.

75 ly, a reduction in LC3 flux and dampening of macroautophagy are observed in dendritic cells from Anxa

76 oteolysis and autophagosome clearance during macroautophagy are prevented as a result of a selective

77 These findings have identified macroautophagy as a previously unappreciated route for d

78 xpectedly, these increases did not depend on macroautophagy, as similar increases in vacuole size wer

79 tingtin transgene expression, the absence of macroautophagy (ATG5 or ATG7 expression), an increase in

80 Macroautophagy (autophagy hereafter) degrades and recycl

81 role in the initiation of starvation-induced macroautophagy (autophagy) and is activated by the guani

82 Macroautophagy (autophagy) is a critical cellular stress

83 Macroautophagy (autophagy) is a lysosome-dependent degra

84 Macroautophagy (autophagy) is a process wherein bulk cyt

85 Macroautophagy (autophagy) is a regulated catabolic path

86 Macroautophagy (autophagy) targets cytoplasmic cargoes t

87 Macroautophagy (autophagy), associated with bulk cytopla

88 ing of damaged mitochondria to lysosomes via macroautophagy (autophagy).

89 denocarcinoma cell models, MAGEA6 suppresses macroautophagy (autophagy).

90 Macroautophagy ("autophagy" hereinafter) is a process by

91 Macroautophagy ("autophagy") is the main lysosomal catab

92 Macroautophagy/autophagy is a key catabolic recycling pa

93 for mutants defective in a type of selective macroautophagy/autophagy.

94 a mechanism different from that of a loss of macroautophagy, because death occurred in the absence of

95 sing pharmacological and genetic blockage of macroautophagy both in vitro and in vivo, we found that

96 gophore is a key event in the early phase of macroautophagy, but can also occur on single-membrane st

97 t PP2C phosphatases, Ptc2 and Ptc3, regulate macroautophagy by dephosphorylating Atg13 and Atg1.

98 We show that suppression of macroautophagy by multiple means promotes the degradatio

99 ind that alpha-syn aggregates impair overall macroautophagy by reducing autophagosome clearance, whic

100 suggest that PP2C-type phosphatases promote macroautophagy by regulating the Atg1 complex.

101 Macroautophagy can regulate cell signalling and tumorige

102 s; however, either insufficient or excessive macroautophagy can seriously compromise cell physiology,

103 hsc-70 is pivotal to the process of macroautophagy, chaperone-mediated autophagy, and endoso

104 efficient removal of damaged mitochondria by macroautophagy contributes to Parkinson's disease (PD).

105 phosphorylation sites partially bypasses the macroautophagy defect in ptc2Delta ptc3Delta strains.

106 was accelerated in transgenic mice in which macroautophagy deficiency was restricted to dopaminergic

107 cally deleted in T cells, we have found that macroautophagy-deficient effector Th cells have defectiv

108 when an exogenous energy source is added to macroautophagy-deficient T cells.

109 When triggered by mTOR inactivation, macroautophagy degrades long-lived proteins and organell

110 mary dendritic cells, revealed no detectable macroautophagy-dependent component.

111 DCs operated in a redundant manner, whereas macroautophagy-dependent endogenous loading was essentia

112 ent proteolysis, autophagy and regulation of macroautophagy, DNA repair and replication, as well as o

113 encing Beclin-1, Atg7, or p62 indicated that macroautophagy does not protect cells undergoing necrosi

114 However, repression of macroautophagy during mitosis remains controversial and

115 inhibited mTORC1 as the master regulator of macroautophagy during mitosis, uncoupling autophagy regu

116 from nutrient status to ensure repression of macroautophagy during mitosis.

117 tes delayed chaperone-mediated autophagy and macroautophagy dysfunction observed in the hSYN(A53T) mi

118 teract cardiac aging through improvements in macroautophagy (eg, calorie restriction and calorie rest

119 Macroautophagy facilitates degradation of cellular const

120 MHC class II-restricted thymocytes required macroautophagy for a mitochondrial version of a neo-anti

121 -driven tumors have been reported to rely on macroautophagy for growth and survival, suggesting a pot

122 confirm that KRAS-driven tumor lines require macroautophagy for growth.

123 TNF-alpha facilitates antigen processing via macroautophagy for more efficient MHC class II loading.

124 Through this basic mechanism, macroautophagy has a critical role in cellular homeostas

125 Here we show that macroautophagy has a dominant role in the death of fibro

126 G12, an ubiquitin-like modifier required for macroautophagy, has a single known conjugation target, a

127 Macroautophagy (hereafter autophagy) functions in the no

128 Macroautophagy (hereafter autophagy) is a bulk degradati

129 Macroautophagy (hereafter autophagy) is a catabolic cell

130 Macroautophagy (hereafter autophagy) is a degradative ce

131 Macroautophagy (hereafter autophagy) is a key pathway in

132 Macroautophagy (hereafter autophagy) is a ubiquitous pro

133 Macroautophagy (hereafter autophagy) is a well-conserved

134 Macroautophagy (hereafter autophagy) is an evolutionaril

135 ngulf cellular components for degradation by macroautophagy (hereafter called autophagy).

136 Endoplasmic reticulum (ER) macroautophagy (hereafter called ER-phagy) uses autophag

137 Macroautophagy (hereafter referred to as autophagy) is a

138 Macroautophagy (hereafter referred to as autophagy) is a

139 Macroautophagy (hereafter referred to as autophagy) is a

140 Macroautophagy (hereafter referred to as autophagy) is a

141 Macroautophagy (hereafter referred to as autophagy) is e

142 compartments that were positive for both the macroautophagy (hereafter referred to as autophagy) mark

143 Here we report that macroautophagy (hereafter referred to as autophagy), a c

144 Macroautophagy (hereafter referred to simply as autophag

145 isolation, immobilization and degradation by macroautophagy (hereafter, mitophagy).

146 nse mechanism is the degradative activity of macroautophagy (herein autophagy), mediated by the coord

147 Macroautophagy (herein referred to as autophagy) is an e

148 Macroautophagy (herein referred to as autophagy) is an e

149 Macroautophagy (herein referred to as autophagy) is an e

150 unknown, but many studies suggest a role for macroautophagy (herein termed autophagy), a process by w

151 blish an essential link between mitochondria macroautophagy impairments and DA neuron degeneration in

152 nase activity resulted in the stimulation of macroautophagy in a non-canonical fashion, independent o

153 , we found that vacuolar hydrolysis inhibits macroautophagy in a target of rapamycin complex 1-depend

154 PROPPINs play a key role in macroautophagy in addition to other functions.

155 Recent work demonstrated the importance of macroautophagy in dendritic cell (DC) maturation and inn

156 g the regulation and molecular mechanisms of macroautophagy in different organisms; however, many que

157 ycan in inducing Peg3, a master regulator of macroautophagy in endothelial cells.

158 is study reveals a novel regulatory role for macroautophagy in GJ function that is directly dependent

159 Macroautophagy in Leishmania, which is important for the

160 -type alpha-synuclein overexpression impairs macroautophagy in mammalian cells and in transgenic mice

161 that alpha-synuclein overexpression impairs macroautophagy in mammalian cells and in transgenic mice

162 The study of macroautophagy in mammalian cells has described inductio

163 d the effects of alpha-synuclein deletion on macroautophagy in mouse brains.

164 (RUFY4) as a positive molecular regulator of macroautophagy in primary dendritic cells (DCs).

165 To test the requirement for macroautophagy in restriction, we examined the ability o

166 (ATG7) by genome editing completely blocked macroautophagy in several tumor lines with oncogenic mut

167 Ethanol-induced macroautophagy in the livers of mice and cultured cells

168 Here, we characterize the role of macroautophagy in thymic epithelial cells (TECs) for neg

169 e show that NSAID treatment of IECs inhibits macroautophagy in vitro and in vivo.

170 Macroautophagy (in this paper referred to as autophagy)

171 r organelles involved in different stages of macroautophagy, including disorganized protein aggregati

172 FGF19 treatment or feeding inhibits macroautophagy, including lipophagy, but these effects a

173 e of specific lipids in the various steps of macroautophagy, including the signaling processes underl

174 port that metabolic stress markedly enhances macroautophagy-independent lysosomal degradation of nasc

175 sses emerging concepts in macroautophagy and macroautophagy-independent processes of cargo delivery t

176 Macroautophagy induced by ethanol seemed to be selective

177 ng to its ligand, p62 acts as a modulator of macroautophagy, inducing autophagosome biogenesis.

178 rylated, triggering Atg1 kinase activity and macroautophagy induction.

179 n, depletion of mutant p53 expression due to macroautophagy inhibition sensitizes the death of dorman

180 antigen (HLA)-DR levels and was reversed by macroautophagy inhibition, suggesting that TNF-alpha fac

181 macological tool to evaluate the response to macroautophagy inhibition.

182 mutation status can predict the efficacy to macroautophagy inhibition.

183 In contrast, macroautophagy inhibitors did not increase HIF-1 activit

184 including the signaling processes underlying macroautophagy initiation, autophagosome biogenesis and

185 to other intracellular trafficking pathways, macroautophagy involves a complex sequence of membrane r

186 The most studied type of autophagy, called macroautophagy, involves membrane mobilisation, cargo en

187 Macroautophagy is a bulk clearance mechanism in which th

188 Macroautophagy is a catabolic pathway used for the turno

189 Macroautophagy is a cellular degradation process respons

190 Macroautophagy is a fundamental and evolutionarily conse

191 Macroautophagy is a highly conserved mechanism of lysoso

192 Macroautophagy is a key stress-response pathway that can

193 Macroautophagy is a lysosomal degradative pathway essent

194 Macroautophagy is a major catabolic pathway that impacts

195 Here we present evidence that macroautophagy is a significant pathway for lipid turnov

196 These results suggest that macroautophagy is an actively regulated process in T cel

197 Macroautophagy is an essential cellular pathway mediatin

198 Macroautophagy is an evolutionarily conserved cellular p

199 Macroautophagy is an evolutionarily conserved dynamic pa

200 Macroautophagy is an intracellular mechanism that plays

201 d with the absence of significant defects in macroautophagy is consistent with lysosomal membrane per

202 lasticity, and neurodegeneration occurs when macroautophagy is deficient.

203 for survival in glucose starvation, whereas macroautophagy is dispensable.

204 Since macroautophagy is essential for gastrointestinal health,

205 Macroautophagy is essential to cell survival during star

206 We have found that macroautophagy is induced after effector T cell activati

207 cruited to the phagophore assembly site when macroautophagy is induced.

208 Macroautophagy is initiated primarily by a complex conta

209 Although macroautophagy is known to be an essential degradative p

210 Macroautophagy is known to play an essential role in the

211 n LC3B levels, indicating that LC3B-mediated macroautophagy is necessary for RCC progression.

212 wn to be autophagic substrates, induction of macroautophagy is not required for insoluble protein for

213 Macroautophagy is orchestrated by the Atg1-Atg13 complex

214 Furthermore, macroautophagy is perturbed after YW3-56 treatment in ca

215 ltapsi(m) and (ii) mTORC1-controlled general macroautophagy is required for mitophagy.

216 Furthermore, lysosomal activity but not macroautophagy is responsible for ALIS clearance.

217 Activation of macroautophagy is suggested to facilitate degradation of

218 The general principle behind macroautophagy is that cytoplasmic contents can be seque

219 A major function of proteasomes and macroautophagy is to eliminate misfolded potentially tox

220 ting degradation of cytoplasmic materials by macroautophagy, is formed in close proximity to the endo

221 mouse model where Atg7, a critical gene for macroautophagy, is specifically deleted in T cells, we h

222 tem function and only modest inefficiency in macroautophagy late in disease.

223 23 kDa) deficiency blocks the activation of macroautophagy, leading to an increased abundance of BAX

224 Loss of macroautophagy led to overactivation of the c-Jun N-term

225 tions to crucial components of the canonical macroautophagy machinery and can occur in the absence of

226 creen exposed MTOR signalling and the entire macroautophagy machinery as key regulators of SQSTM1 and

227 signal for the selective recognition by the macroautophagy machinery.

228 review, we summarize current knowledge about macroautophagy mainly in yeast, including the mechanism

229 However, the precise mechanism behind macroautophagy malfunction in HD is poorly understood.

230 mitochondria abnormalities, characterized by macroautophagy marker-positive cytoplasmic inclusions co

231 Here, we show that initiation of macroautophagy, measured by the translocation of the ULK

232 and MHC class II expression and suggest that macroautophagy-mediated antigen presentation contributes

233 Macroautophagy mediates the degradation of long-lived pr

234 Macroautophagy mediates the selective degradation of pro

235 Reagents that modify macroautophagy might be developed as therapeutics for pa

236 testinal health, NSAID-induced inhibition of macroautophagy might contribute to the severity of intes

237 roteasome system, unfolded protein response, macroautophagy, mitophagy, and telomere maintenance) res

238 thermore, treatments that enhance or inhibit macroautophagy modulated the level of presentation from

239 It is nevertheless unknown whether macroautophagy modulates presynaptic function.

240 in metazoan cells, it has been proposed that macroautophagy must be inhibited to maintain genome inte

241 A basal level of macroautophagy occurs constitutively, but this process c

242 roaches, we confirmed the implication of the macroautophagy on PLK2-mediated alpha-syn turnover, and

243 pecifically in a process called nonselective macroautophagy, or target specific protein aggregates de

244 We examined flux through the macroautophagy pathway as a determinant of the discrepan

245 signaling aggregates, 2) offer images of the macroautophagy pathway in a near-native state, and 3) re

246 Reduced flux through the macroautophagy pathway was found to be coincident with t

247 teins (ATG8s) are active in all steps of the macroautophagy pathway, and their lipidation is essentia

248 Phagophore maturation is a key step in the macroautophagy pathway, which is critical in many import

249 tumor suppressor Tid56, is a key mediator of macroautophagy pathway.

250 uctures for elimination independently of the macroautophagy pathway.

251 Increasing macroautophagy pharmacologically reduced hepatotoxicity

252 Macroautophagy protects against ethanol-induced toxicity

253 Macroautophagy provides eukaryotes with an adaptive resp

254 Thus, upon AICD induction regulation of macroautophagy, rather than selective mitophagy, ensures

255 Macroautophagy (referred to here as autophagy) degrades

256 Macroautophagy (referred to here as autophagy) is induce

257 Macroautophagy (referred to hereafter as autophagy) is a

258 Macroautophagy (referred to hereafter as autophagy) is a

259 impaired macroautophagy and how this affects macroautophagy-regulated intestinal epithelial cell (IEC

260 ning some of the most fundamental aspects of macroautophagy remain unresolved.

261 al processes, the molecular understanding of macroautophagy remains far from complete.

262 Macroautophagy requires membrane trafficking and remodel

263 Here, we show that macroautophagy requires the Alzheimer's disease (AD)-rel

264 Macroautophagy responds to a variety of intra- and extra

265 Interruption of connexins' macroautophagy resulted in their retention at the plasma

266 Loss of macroautophagy sensitized cells to apoptotic and necroti

267 Selective autophagy and macroautophagy sequester specific organelles/substrates

268 Macroautophagy serves cellular housekeeping and metaboli

269 Macroautophagy serves in intracellular quality control a

270 view the effect of ROS on selective forms of macroautophagy, specifically on cargo recognition by aut

271 hanisms and the wider impact of ROS-mediated macroautophagy stimulation remain incompletely understoo

272 autophagy and clearance of a well-described macroautophagy substrate, demonstrating the critical rol

273 Our findings suggest that macroautophagy supports central CD4(+) T cell tolerance

274 on of lysosomes available for degradation of macroautophagy-targeted cargo.

275 herefore, both elevated NY-ESO-1 release and macroautophagy targeting could improve melanoma cell rec

276 However, macroautophagy targeting of NY-ESO-1 enhanced MHC class

277 Macroautophagy that follows mTOR inhibition in presynapt

278 After macroautophagy, the antigen is processed through a prote

279 Macroautophagy, the degradation of cytoplasmic content b

280 Alterations in macroautophagy, the main process responsible for bulk au

281 events through which LRRK2 acts to influence macroautophagy, the mammalian target of rapamycin (mTOR)

282 leton scaffolds also have essential roles in macroautophagy, the process by which cellular waste is i

283 Macroautophagy--the process by which cytosolic material

284 eased hepatocyte apoptosis and liver injury; macroautophagy therefore protected cells from the toxic

285 n pathway, possibly linking dysregulation of macroautophagy to a female-dominated COPD disease phenot

286 B lymphocytes exploit macroautophagy to capture cytoplasmic and nuclear protei

287 this work, we focused on the contribution of macroautophagy to connexin degradation.

288 contributions of abnormal ROS signalling and macroautophagy to the development and progression of neu

289 The contribution of macroautophagy to the MHC class II-restricted response m

290 lay important roles in autophagosome-forming macroautophagy under various stress conditions.

291 tream of T-cell receptor signalling inhibits macroautophagy upon AICD induction.

292 ted mice, and feeding-mediated inhibition of macroautophagy was attenuated in FXR-knockout mice.

293 in the RALA255-10G rat hepatocyte line when macroautophagy was inhibited by a short hairpin RNA (shR

294 To further validate these findings, macroautophagy was inhibited chemically in ER-stressed w

295 for intestinal homeostasis and dependent on macroautophagy were dysfunctional in the presence of NSA

296 are three different types of autophagy, but macroautophagy, which involves the formation of double m

297 e models is accompanied by the occurrence of macroautophagy, which is suppressed by Myr-Akt.

298 Suppression of macroautophagy with pharmacologic agents or small interf

299 ulated tumor suppressor acting by inhibiting macroautophagy, with MAP1LC3B (LC3B) as a direct and fun

300 he process of cargo recognition in selective macroautophagy, with the goal of providing insights into