Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0025362 (mental retardation)
 15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Membrane and protein traffic in the secretory and endocytic pathways is mediated by vesicular transport. Recent studies of certain key regulators of vesicular transport, the Rab GTPases, have linked Rab dysfunction to human disease. Mutations in Rab27a result in Griscelli syndrome, caused by defects in melanosome transport in melanocytes and loss of cytotoxic killing activity in Tcells. Other genetic diseases are caused by partial dysfunction of multiple Rab proteins resulting from mutations in general regulators of Rab activity; Rab escort protein-1 (choroideremia), Rab geranylgeranyl transferase (Hermansky-Pudlak syndrome) and Rab GDP dissociation inhibitor-alpha (X-linked mental retardation). In infectious diseases caused by intracellular microorganisms, the function of endocytic Rabs is altered either as part of host defences or as part of survival strategy of the pathogen. The human genome is predicted to contain 60 RAB genes, suggesting that future work could reveal further links between Rab dysfunction and disease.
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PMID:Rab GTPases, intracellular traffic and disease. 1179 63

Rab GTPases serve as master regulators of vesicular membrane transport on both the exo- and endocytic pathways. In their active forms, rab proteins serve in cargo selection and as scaffolds for the sequential assembly of effectors requisite for vesicle budding, cytoskeletal transport, and target membrane fusion. Rab protein function is in turn tightly regulated at the level of protein expression, localization, membrane association, and activation. Alterations in the rab GTPases and associated regulatory proteins or effectors have increasingly been implicated in causing human disease. Some diseases such as those resulting in bleeding and pigmentation disorders (Griscelli syndrome), mental retardation, neuropathy (Charcot-Marie-Tooth), kidney disease (tuberous sclerosis), and blindness (choroideremia) arise from direct loss of function mutations of rab GTPases or associated regulatory molecules. In contrast, in a number of cancers (prostate, liver, breast) as well as vascular, lung, and thyroid diseases, the overexpression of select rab GTPases have been tightly correlated with disease pathogenesis. Unique therapeutic opportunities lie ahead in developing strategies that target rab proteins and modulate the endocytic pathway.
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PMID:Rab proteins and endocytic trafficking: potential targets for therapeutic intervention. 1459 35

A recent paper in Bioscience Reports (BSR20182189) describes the discovery of an interaction between the motor protein myosin Va and the metabolic enzyme spermine synthase. Myosin Va is a molecular motor which plays a key role in vesicle transport. Mutations in the gene which encodes this protein are associated with Griscelli syndrome type 1 and the 'dilute' phenotype in animals. Spermine synthase catalyzes the conversion of spermidine to spermine. This largely cytoplasmic enzyme can also be localized to the soluble fraction in exosomes. Mutations in the spermine synthase gene are associated with Snyder Robinson mental retardation syndrome. The interaction between the two proteins was detected using the yeast two hybrid method and verified by microscale thermophoresis of recombinant proteins. Knockdown of the MYO5A gene reduced the expression of mRNA coding for spermine synthase. The amount of this transcript was also reduced in cells derived from a patient with Griscelli syndrome type 1. This suggests that, in addition to a direct physical interaction between the two proteins, myosin Va also modulates the transcription of the spermine synthase gene. The mechanism for this modulation is currently unknown. These findings have implications for Griscelli syndrome type 1 and Snyder Robinson mental retardation syndrome. They also suggest that interactions between myosin Va and soluble exosome proteins such as spermine synthase may be important in the mechanism of exosome transport.
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PMID:Myosin Va and spermine synthase: partners in exosome transport. 3073 78