RAB39B's role in membrane traffic, autophagy, and associated neuropathology

Tang, Bor Luen

doi:10.1002/jcp.29962

Cited by 17 publications

(13 citation statements)

References 178 publications

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“…Although the mechanisms by which a loss of RAB39B leads to the dyshomeostasis of aSyn is unknown, the disruption of autophagic clearance has recently been proposed as central to this, in line with the impairments seen following the expression of mutations within the RAB39B GEF C9orf72 128 and would appear to be supported by the autophagy deficits in RAB39B knockout mice. 124 Whilst such a proposition is interesting it remains unclear why such generalized failure of lysosomal clearance would preferentially lead to the accumulation and aggregation of aSyn over other aggregate prone proteins, and indeed several studies have failed to find an impact upon lysosomal degradation following the loss of RAB39B.…”

Section: Regulation Of Asyn Homeostasis Via Rab39bmentioning

confidence: 88%

Dysfunction of RAB39B‐Mediated Vesicular Trafficking in Lewy Body Diseases

et al. 2021

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Intracellular vesicular trafficking is essential for neuronal development, function, and homeostasis and serves to process, direct, and sort proteins, lipids, and other cargo throughout the cell. This intricate system of membrane trafficking between different compartments is tightly orchestrated by Ras analog in brain (RAB) GTPases and their effectors. Of the 66 members of the RAB family in humans, many have been implicated in neurodegenerative diseases and impairment of their functions contributes to cellular stress, protein aggregation, and death. Critically, RAB39B loss-of-function mutations are known to be associated with X-linked intellectual disability and with rare early-onset Parkinson's disease. Moreover, recent studies have highlighted altered RAB39B expression in idiopathic cases of several Lewy body diseases (LBDs). This review contextualizes the role of RAB proteins in LBDs and highlights the consequences of RAB39B impairment in terms of endosomal trafficking, neurite outgrowth, synaptic maturation, autophagy, as well as alpha-synuclein homeostasis. Additionally, the potential for therapeutic intervention is examined via a discussion of the recent progress towards the development of specific RAB modulators.

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Section: Regulation Of Asyn Homeostasis Via Rab39bmentioning

confidence: 88%

Dysfunction of RAB39B‐Mediated Vesicular Trafficking in Lewy Body Diseases

et al. 2021

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“…C19orf53 correlates with PARK7, SOD1 and ROCK1 which have roles in autophagic proteolysis and the formation of the autophagosome [53][54][55] . Our correlation analysis also reveals C1orf109 is highly correlated with TMEM41B, ATG4C RAB39B, TRIM8, and NPRL3 which are also regulators of autophagy [56][57][58][59] . C1orf109 was shown here to be highly correlated with SNCA.…”

Section: Differential Correlation Analysis Resultsmentioning

confidence: 55%

Personalized Perturbation Profiles Reveal Concordance between Autism Blood Transcriptome Datasets

Laird

Maertens

2021

Preprint

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The complex heterogeneity of Autism Spectrum Disorder (ASD) has made quantifying disease specific molecular changes a challenge. Blood based transcriptomic assays have been performed to isolate these molecular changes and provide biomarkers to aid in ASD diagnoses, etiological understanding, and potential treatment1–6. However, establishing concordance amongst these studies is made difficult in part by the variation in methods used to call putative biomarkers. Here we use personal perturbation profiles to establish concordance amongst these datasets and reveal a pool of 1,189 commonly perturbed genes and new insights into poorly characterized genes that are perturbed in ASD subjects. We find the resultant perturbed gene pools to include the following unnamed genes: C18orf25, C15orf39, C1orf109, C1orf43, C19orf12, C6orf106, C3orf58, C19orf53, C17orf80, C4orf33, C21orf2, C10orf2, C1orf162, C10orf25 and C10orf90. Investigation into these genes using differential correlation analysis and the text mining tool Chilibot reveal interesting connections to DNA damage, ubiquitination, R-loops, autophagy, and mitochondrial damage. Our results support evidence that these cellular events are relevant to ASD molecular mechanisms. The personalized perturbation profile analysis scheme, as described in this work, offers a promising way to establish concordance between seemingly discordant expression datasets and expose the relevance of new genes in disease.

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“…More recently, additional evidence reported that loss-of-function mutations in RAB39B , including whole gene deletion, missense, splicing and frameshift variants, also led to the development of an X-linked form of rare early-onset PD associated with intellectual disability [ 72 , 73 ]. RAB39B is a neuronal protein which is localized in the Golgi compartment and acts as an essential regulator of vesicular trafficking, possibly affecting α-syn homeostasis [ 74 ]. This protein is also believed to play a role in the modulation of growth cone function, neurite morphology, synaptic plasticity and synapse formation [ 74 , 75 ].…”

Section: The Genetic Landscape Of Parkinson’s Disease: a Brief Overviewmentioning

confidence: 99%

Psychosis in Parkinson’s Disease: A Lesson from Genetics

Angelopoulou

Bougea

Papageorgiou

et al. 2022

Genes

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Psychosis in Parkinson’s disease (PDP) represents a common and debilitating condition that complicates Parkinson’s disease (PD), mainly in the later stages. The spectrum of psychotic symptoms are heterogeneous, ranging from minor phenomena of mild illusions, passage hallucinations and sense of presence to severe psychosis consisting of visual hallucinations (and rarely, auditory and tactile or gustatory) and paranoid delusions. PDP is associated with increased caregiver stress, poorer quality of life for patients and carers, reduced survival and risk of institutionalization with a significant burden on the healthcare system. Although several risk factors for PDP development have been identified, such as aging, sleep disturbances, long history of PD, cognitive impairment, depression and visual disorders, the pathophysiology of psychosis in PD is complex and still insufficiently clarified. Additionally, several drugs used to treat PD can aggravate or even precipitate PDP. Herein, we reviewed and critically analyzed recent studies exploring the genetic architecture of psychosis in PD in order to further understand the pathophysiology of PDP, the risk factors as well as the most suitable therapeutic strategies.

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RAB39B's role in membrane traffic, autophagy, and associated neuropathology

Cited by 17 publications

References 178 publications

Dysfunction of RAB39B‐Mediated Vesicular Trafficking in Lewy Body Diseases

Dysfunction of RAB39B‐Mediated Vesicular Trafficking in Lewy Body Diseases

Personalized Perturbation Profiles Reveal Concordance between Autism Blood Transcriptome Datasets

Psychosis in Parkinson’s Disease: A Lesson from Genetics

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