Precision autophagy directed by receptor regulators – emerging examples within the TRIM family

Kimura, Tomonori; Mandell, Michael A.; Deretić, Vojo

doi:10.1242/jcs.163758

Cited by 89 publications

(94 citation statements)

References 194 publications

(263 reference statements)

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“…LC3 proteins) and that knockdowns of autophagy factors (ATG7 or Beclin 1) or receptors ( p62, NBR1 and ALFY) can cause midbody accumulation. TRIM17 has the potential to link these separate autophagy-related systems together along with the autophagy-activating kinase ULK1 in its active form, consistent with the concept of 'precision autophagy' proposed for other TRIMs (Kimura et al, 2016). In addition to TRIM17, we identified three other TRIMs (TRIM21, TRIM47 and TRIM76) that also contribute to the autophagic removal of midbodies.…”

Section: Discussionsupporting

confidence: 82%

“…Recent studies have implicated the TRIM family of proteins (Reymond et al, 2001) as both autophagy receptors that directly bind to their substrates (Kimura et al, 2015;Mandell et al, 2014;Niida et al, 2010) and as autophagy regulators (Kimura et al, 2015;Mandell et al, 2014;Barde et al, 2013;Yang et al, 2013), thus potentially being positioned to couple target specificity with autophagy induction or inhibition (Kimura et al, 2016). Several TRIMs such as TRIM5α, TRIM6, TRIM20, TRIM21 and others have been demonstrated to promote autophagy by assembling the key autophagy regulators ULK1 and Beclin 1 in their activated states (Kimura et al, 2015;Mandell et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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TRIM17 contributes to autophagy of midbodies while actively sparing other targets from degradation

Mandell

Jain

Kumar

et al. 2016

Journal of Cell Science

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TRIM proteins contribute to selective autophagy, a process whereby cells target specific cargo for autophagic degradation. In a previously reported screen, TRIM17 acted as a prominent inhibitor of bulk autophagy, unlike the majority of TRIMs, which had positive roles. Nevertheless, TRIM17 showed biochemical hallmarks of autophagyinducing TRIMs. To explain this paradox, here, we investigated how TRIM17 inhibits selective autophagic degradation of a subset of targets while promoting degradation of others. We traced the inhibitory function of TRIM17 to its actions on the anti-autophagy protein Mcl-1, which associates with and inactivates Beclin 1. TRIM17 expression stabilized Mcl-1-Beclin-1 complexes. Despite its ability to inhibit certain types of selective autophagy, TRIM17 promoted the removal of midbodies, remnants of the cell division machinery that are known autophagy targets. The selective loss of anti-autophagy Mcl-1 from TRIM17-Beclin-1 complexes at midbodies correlated with the ability of TRIM17 to promote midbody removal. This study further expands the roles of TRIMs in regulating selective autophagy by showing that a single TRIM can, depending upon a target, either positively or negatively regulate autophagy.

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Section: Discussionsupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

TRIM17 contributes to autophagy of midbodies while actively sparing other targets from degradation

Mandell

Jain

Kumar

et al. 2016

Journal of Cell Science

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“…Since XNF7, the first member of TRIM family to be cloned and identified in 1997 (8), over 70 TRIM proteins have been found in the human genome to date (9). TRIM proteins play differing roles in cellular function including differentiation, transcription, cell cycle regulation, innate immunity and cell migration (10).…”

Section: Introductionmentioning

confidence: 99%

TRIM16 suppresses the progression of prostate tumors by inhibiting the Snail signaling pathway

Lü

Sun

et al. 2016

International Journal of Molecular Medicine

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Prostate carcinoma is a devastating disease which is characterized by insidious early symptoms, rapid progression and a poor prognosis. Tripartite motif-containing protein 16 (TRIM16) was identified as an estrogen- and antiestrogen-regulated gene in epithelial cells stably expressing estrogen receptors. The protein encoded by this gene contains two B-box domains and a coiled-coiled region that are characteristic of the B-box zinc finger protein family. Proteins belonging to this family have been reported to be involved in a variety of biological processes including cell growth, differentiation and pathogenesis. TRIM16 expression has been detected in most tissues. However, the funtions of this gene remain to be elucidated. In the present study, immunohistochemical staining revealed that the expression of TRIM16 was decreased in prostate adenocarcinoma compared with that in normal prostate tissues. The patients with high TRIM16-expressing tumors had a significantly greater survival than those with low TRIM16-expressing tumors. Western blot analysis showed that TRIM16 was downregulated in distant metastatic cancer tissues compared with that in non-distant metastatic cancer tissues. The overexpression of TRIM16 inhibited the migration and invasion of prostate cancer cells as well as inhibiting the epithelial-to-mesenchymal transition process, whereas TRIM16 depletion enhanced these processes. Moreover, TRIM16 inhibited the Snail signaling pathway. The silencing of Snail by small interfering RNA was performed in order to determine the role of Snail in the TRIM16-mediated tumor phenotype. Taken together, these findings suggest that TRIM16 may be an important molecular target which may aid in the design of novel therapeutic agents for prostate cancer.

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“…While occupying pivotal roles during host defense against microbes, induction of tolerance, antigen‐presentation, and tissue differentiation, a key function of autophagy pathways is to maintain a well‐balanced proteostasis and provision of metabolic building blocks and energy sources in response to nutrient deprivation and other cellular stressors248, 249, 250, 251, 252 As opposed to the proteasomal system, autophagy, in addition to removing aberrant proteins, aids in the removal of defective or excess mitochondria, lysosomes and peroxisomes and keeps, thereby, homeostasis on the level of macromolecules and whole organelles alike 253, 254, 255, 256. Consequently, defective autophagy pathways have been ascribed a pathological role in degenerative diseases of the brain236, 237, 257 and emerging evidence implicates autophagy in the pathoetiology of IBM.…”

Section: Degenerative Pathomechanisms In Ibmmentioning

confidence: 99%

Immune and myodegenerative pathomechanisms in inclusion body myositis

Keller

Schmidt

Lünemann

2017

Ann Clin Transl Neurol

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Inclusion Body Myositis (IBM) is a relatively common acquired inflammatory myopathy in patients above 50 years of age. Pathological hallmarks of IBM are intramyofiber protein inclusions and endomysial inflammation, indicating that both myodegenerative and inflammatory mechanisms contribute to its pathogenesis. Impaired protein degradation by the autophagic machinery, which regulates innate and adaptive immune responses, in skeletal muscle fibers has recently been identified as a potential key pathomechanism in IBM. Immunotherapies, which are successfully used for treating other inflammatory myopathies lack efficacy in IBM and so far no effective treatment is available. Thus, a better understanding of the mechanistic pathways underlying progressive muscle weakness and atrophy in IBM is crucial in identifying novel promising targets for therapeutic intervention. Here, we discuss recent insights into the pathomechanistic network of mutually dependent inflammatory and degenerative events during IBM.

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Precision autophagy directed by receptor regulators – emerging examples within the TRIM family

Cited by 89 publications

References 194 publications

TRIM17 contributes to autophagy of midbodies while actively sparing other targets from degradation

TRIM17 contributes to autophagy of midbodies while actively sparing other targets from degradation

TRIM16 suppresses the progression of prostate tumors by inhibiting the Snail signaling pathway

Immune and myodegenerative pathomechanisms in inclusion body myositis

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