Cathepsin Inhibition Prevents Autophagic Protein Turnover and Downregulates Insulin Growth Factor-1 Receptor-Mediated Signaling in Neuroblastoma

Soori, Mehrnoosh; Lu, Guizhen; Mason, Robert W.

doi:10.1124/jpet.115.229229

Cited by 16 publications

(12 citation statements)

References 67 publications

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“…These hydrolases are synthesized in the rough endoplasmic reticulum and travel along the secretory pathway until they reach the TGN, where they are sorted and delivered to late endosomes/lysosomes . The inhibition of lysosomal hydrolases, such as cathepsins, can induce lysosome dysfunction and prevent autophagic degradation . To determine whether PIPKIγi5 and/or Rab7a control the sorting of hydrolases to lysosomes, the subcellular distribution of the lysosomal hydrolase cathepsin D (CTSD) was monitored.…”

Section: Resultsmentioning

confidence: 99%

“…5,41 The inhibition of lysosomal hydrolases, such as cathepsins, can induce lysosome dysfunction and prevent autophagic degradation. 42,43 To determine whether PIPKIγi5 and/or Rab7a control the sorting of hydrolases to lysosomes, the subcellular distribution of the lysosomal hydrolase cathepsin D (CTSD) was monitored. The loss of PIPKIγi5 significantly decreased the colocalization of CTSD with the late endosome/lysosome marker LAMP1 ( Figure 5A,B), suggesting there was a decrease in sorting to late endosomes/lysosomes.…”

Section: Pipkiγi5 Regulates the Sorting Of Hydrolases To Lysosomes mentioning

confidence: 99%

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Control of Rab7a activity and localization through endosomal type Igamma PIP 5‐kinase is required for endosome maturation and lysosome function

et al. 2019

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The small GTPase Ras‐related protein Rab‐7a (Rab7a) serves as a key organizer of the endosomal‐lysosomal system. However, molecular mechanisms controlling Rab7a activation levels and subcellular translocation are still poorly defined. Here, we demonstrate that type Igamma phosphatidylinositol phosphate 5‐kinase i5 (PIPKIγi5), an endosome‐localized enzyme that produces phosphatidylinositol 4,5‐bisphosphate, directly interacts with Rab7a and plays critical roles in the control of the endosomal‐lysosomal system. The loss of PIPKIγi5 blocks Rab7a recruitment to early endosomes, which prevents the maturation of early to late endosomes. PIPKIγi5 loss disturbs retromer complex connection with Rab7a, which blocks the retrograde sorting of Cation‐independent Mannose 6‐Phosphate Receptor from late endosomes. This leads to the decreased sorting of hydrolases to lysosomes and reduces the autophagic degradation. By modulating the retromer‐Rab7a connection, PIPKIγi5 is also required for the recruitment of the GTPase‐activating protein TBC1 domain family member 5 to late endosomes, which controls the conversion of Rab7a from the active state to the inactive state. Thus, PIPKIγi5 is critical for the modulation of Rab7a activity, localization, and function in the endosomal‐lysosomal system.

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Section: Resultsmentioning

confidence: 99%

Section: Pipkiγi5 Regulates the Sorting Of Hydrolases To Lysosomes mentioning

confidence: 99%

Control of Rab7a activity and localization through endosomal type Igamma PIP 5‐kinase is required for endosome maturation and lysosome function

et al. 2019

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“…Despite this modestly increased protein synthesis capacity, protein degradation mechanisms, such as autophagy, are known to be increased in the oxidative fibers [7]. This is supported by findings that cathepsins, important factors in lysosomal proteolysis that are usually abundant in tissues with high protein turnover, are present in higher concentrations in muscle fibers with a high oxidative capacity [11,12]. Due to a greater oxidative capacity of type I muscle fibers, higher accumulation of reactive oxygen species and metabolites are expected to occur, lowering the biological potential for hypertrophy due to activation of the pathways responsible for the protein degradation, acting as a quality control system [13,14].…”

Section: Physiological Differences Between Type I and Type Ii Muscle mentioning

confidence: 88%

Inducing hypertrophic effects of type I skeletal muscle fibers: A hypothetical role of time under load in resistance training aimed at muscular hypertrophy

et al. 2018

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An emerging body of evidence is starting to suggest that the hypertrophy of skeletal muscle fibers might be load specific. In other words, it may be that resistance training with high loads (i.e., ≥60% of 1 repetition maximum [RM]) emphasizes a greater growth of type II muscle fibers, while resistance training with low loads (i.e., <60% of 1RM) might primarily augment hypertrophy of type I muscle fibers. Type I and type II muscle fibers possess certain distinct characteristics, with type II muscle fibers having faster calcium kinetics, faster shortening velocities, and ability to generate more power than type I muscle fibers. Alternatively, compared to type II fibers, type I muscle fibers have a higher oxidative capacity and a higher fatigue threshold. Due to the lower fatigability of type I muscle fibers, it may be hypothesized that a greater time under load is necessary to stimulate an accentuated growth of these fibers. An increase in time under load can be achieved when training with lower loads (e.g., 30% of 1RM) and to momentary muscular failure. The present paper discusses the hypothesis that a greater hypertrophy of type I muscle fibers may be induced with low load resistance training.

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“…In particular, Panx1 is involved in neuronal cell death regulation (Nishida et al, ), while Bgn and Fn1 have neuroprotective effects (Koops et al, ; Yanqing, Yu‐Min, Jian, Bao‐Guo, & Chuan‐Zhen, ). Shc is known to act downstream of the TrkA receptor and of the Akt survival signaling‐pathway (Soori, Lu, & Mason, ), whereas Anxa2 induces apoptotic signals (Bozzo, Bellomo, Silengo, Tarone, & Altruda, ; Han, Zhang, Lu, & Xu, ; Jin et al, ). Following Ngf treatment, our analysis also revealed the down‐regulation of Btk, Ship , Pik3c γ, Lyn, and Nalp3 , which encode for enzymes that regulate immune cell signaling and increase neuronal viability (Campbell, Raheem, Malemud, & Askari, ; Ha, Kwon, & Park, ; Ho, Drego, Hakimian, & Masliah, ; Huang, Hunter, Kim, Indik, & Schreiber, ; Islam & Smith, ; Kawakami et al, ; Zhang et al, ).…”

Section: Discussionmentioning

confidence: 99%

The trophic effect of nerve growth factor in primary cultures of rat hippocampal neurons is associated to an anti‐inflammatory and immunosuppressive transcriptional program

Maino

Spampinato

Severini

et al. 2018

Journal Cellular Physiology

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Nerve growth factor, the prototype of a family of neurotrophins, elicits differentiation and survival of peripheral and central neuronal cells. Although its neural mechanisms have been studied extensively, relatively little is known about the transcriptional regulation governing its effects. We have previously observed that in primary cultures of rat hippocampal neurons treatment with nerve growth factor for 72 hr increases neurite outgrowth and cell survival. To obtain a comprehensive view of the underlying transcriptional program, we performed whole-genome expression analysis by microarray technology. We identified 541 differentially expressed genes and characterized dysregulated pathways related to innate immunity: the complement system and neuro-inflammatory signaling. The exploitation of such genes and pathways may help interfering with the intracellular mechanisms involved in neuronal survival and guide novel therapeutic strategies for neurodegenerative diseases.

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Cathepsin Inhibition Prevents Autophagic Protein Turnover and Downregulates Insulin Growth Factor-1 Receptor-Mediated Signaling in Neuroblastoma

Cited by 16 publications

References 67 publications

Control of Rab7a activity and localization through endosomal type Igamma PIP 5‐kinase is required for endosome maturation and lysosome function

Control of Rab7a activity and localization through endosomal type Igamma PIP 5‐kinase is required for endosome maturation and lysosome function

Inducing hypertrophic effects of type I skeletal muscle fibers: A hypothetical role of time under load in resistance training aimed at muscular hypertrophy

The trophic effect of nerve growth factor in primary cultures of rat hippocampal neurons is associated to an anti‐inflammatory and immunosuppressive transcriptional program

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