Endosome mediated nucleocytoplasmic trafficking and endomembrane allocation is crucial to polyglutamine toxicity.

Aggregation of aberrant proteins is a common pathological hallmark in neurodegeneration such as polyglutamine (polyQ) and other repeat-expansion diseases. Here through overexpression of ataxin3 C-terminal polyQ expansion in Drosophila gut enterocytes, we generated an intestinal obstruction model of spinocerebellar ataxia type3 (SCA3) and reported a new role of nuclear-associated endosomes (NAEs)-the delivery of polyQ to the nucleoplasm. In this model, accompanied by the prominently increased RAB5-positive NAEs are abundant nucleoplasmic reticulum enriched with polyQ, abnormal nuclear envelope invagination, significantly reduced endoplasmic reticulum, indicating dysfunctional nucleocytoplasmic trafficking and impaired endomembrane organization. Consistently, Rab5 but not Rab7 RNAi further decreased polyQ-related NAEs, inhibited endomembrane disorganization, and alleviated disease model. Interestingly, autophagic proteins were enriched in polyQ-related NAEs and played non-canonical autophagic roles as genetic manipulation of autophagic molecules exhibited differential impacts on NAEs and SCA3 toxicity. Namely, the down-regulation of Atg1 or Atg12 mitigated while Atg5 RNAi aggravated the disease phenotypes both in Drosophila intestines and compound eyes. Our findings, therefore, provide new mechanistic insights and underscore the fundamental roles of endosome-centered nucleocytoplasmic trafficking and homeostatic endomembrane allocation in the pathogenesis of polyQ diseases.

Ischemic Stroke and Intraventricular Hemorrhage in Moyamoya Syndrome Associated With Graves' Disease: A Case Report.

INTRODUCTION: Moyamoya syndrome is commonly associated with sickle cell anemia, neurofibromatosis type 1, cranial therapeutic irradiation, and Down syndrome. However, it is rare for Moyamoya syndrome associated with Graves' disease. CASE REPORT: Here we report a case of Moyamoya syndrome associated with Graves' disease in a 19-year-old girl with sudden weakness of the right arm, progressive caries, and alopecia for 4 years. Brain magnetic resonance imaging revealed acute intraventricular hemorrhage and cerebral infarction of left middle cerebral artery territory and narrowing of the proximal portion of bilateral anterior and middle cerebral arteries. CONCLUSION: Acute cerebral infarction and intraventricular hemorrhage can occur simultaneously in Moyamoya syndrome associated with Graves' disease. Hydrocortisone, combined with prothiouracil medication, can correct thyroid dysfunction and improve neurological function. Caries may be the first symptom of Graves' disease.

Protective role of vitamin B6 against mitochondria damage in Drosophila models of SCA3.

Polyglutamine (polyQ)-mediated mitochondria damage is one of the prime causes of polyQ toxicity, which leads to the loss of neurons and the injury of non-neuronal cells. With the discovery of the crucial role of the gut-brain axis and gut microbes in neurological diseases, the relationship between visceral damage and neurological disorders has also received extensive attention. This study successfully simulated the polyQ mitochondrial damage model by expressing 78 or 84 polyglutamine-containing Ataxin3 proteins in Drosophila intestinal enterocytes. In vivo, polyQ expression can reduce mitochondrial membrane potential, mitochondrial DNA damage, abnormal mitochondrial morphology, and loose mitochondrial cristae. Expression profiles evaluated by RNA-seq showed that mitochondrial structural genes and functional genes (oxidative phosphorylation and tricarboxylic acid cycle-related) were significantly down-regulated. More importantly, Bioinformatic analyses demonstrated that pathological polyQ expression induced vitamin B6 metabolic pathways abnormality. Active vitamin B6 participates in hundreds of enzymatic reactions and is very important for maintaining mitochondria's activities. In the SCA3 Drosophila model, Vitamin B6 supplementation significantly suppressed ECs mitochondria damage in guts and inhibited cellular polyQ aggregates in fat bodies, indicating a promising therapeutic strategy for the treatment of polyQ. Taken together, our results reveal a crucial role for the Vitamin B6-mediated mitochondrial protection in polyQ-induced cellular toxicity, which provides strong evidence for this process as a drug target in polyQ diseases treatment.

Effects of calcium treatment on malate metabolism and γ-aminobutyric acid (GABA) pathway in postharvest apple fruit.

Calcium treatment effects on malate metabolism and the GABA pathway in 'Cripps Pink' apple fruit during storage were investigated. Postharvest apple fruit treated with 1% and 4% calcium chloride solutions were stored at 25 ± 1 °C. The 4% calcium treatment suppressed declines in titratable acidity and malate content and increased succinate and oxalate concentrations. Calcium treatment also reduced the respiration rate and decreased ethylene production peak during storage. Moreover, 4% calcium treatment significantly enhanced cyNAD-MDH and PEPC activities and upregulated MdMDH1, MdMDH2, MdPEPC1 and MdPEPC2 expression while inhibiting cyNADP-ME and PEPCK activities and downregulating MdME1, MdME4 and MdPEPCK2 expression. Surprisingly, calcium treatment changed the content of some free amino acids (GABA, proline, alanine, aspartic acid and glutamate), two of which (glutamate and GABA) are primary metabolites of the GABA pathway. Furthermore, calcium application enhanced GABA pathway activity by increasing MdGAD1, MdGAD2, MdGABA-T1/2 and MdSSADH transcript levels.

Overexpressed PERK suppresses the neurodegenerative phenotypes in PINK1B9 flies by enhancing mitochondrial function.

PTEN-induced putative kinase 1 (PINK1) mutation induces autosomal recessive Parkinson's Disease (PD), mitochondrial dysfunction is the central pathogenic process. However, more and more studies presented the bulk of the damage to neurons with mitochondrial dysfunction stems from the endoplasmic reticulum (ER) stress. In mitochondria damaged PINK1B9 fly model how protein kinase RNA-like ER kinase (PERK) arm of ER stress functions remains a mystery. Thus, we generated both PERK overexpressed (PEK OE) and down expressed (PEK RNAi) PINK1B9 flies and monitored their motor activity. We found PEK OE decreased the abnormal wing posture rate and rescued PINK1B9 flies' motor activity. Furthermore, we observed the increased number of dopaminergic neurons of protocerebral posterior lateral 1 (PPL1) and the tyrosine hydroxylase (TH) protein levels in PINK1B9 flies. When testing the mitochondrial morphology in flight muscle with TEM, we found that the shape of the mitochondria became normal. The ATP levels of flight muscle tissues were significantly elevated in PEK OE PINK1B9 flies with the increased function of mitochondrial Electron Transport Chain (ETC) Complex I (CI) but not Complex Ⅱ (CⅡ) which is further confirmed by oxygen consumption experiments, Western Blot, and RT-PCR to examine the corresponding subunits. We suggest that overexpression of PERK can rescue PINK1B9 PD flies' pathogenic phenotypes and it is linked with the improved mitochondrial function especially CI of ETC but not CⅡ. Our findings may pave a way for the target of the drug for alleviating the suffering of PINK1 mutant autosomal recessive PD patients.

Exogenous γ-Aminobutyric Acid Treatment That Contributes to Regulation of Malate Metabolism and Ethylene Synthesis in Apple Fruit during Storage.

Organic acid is an important indicator of fruit quality, and malate is the predominant organic acid in apple fruit. However, the regulation of malate metabolism in postharvest fruit is rarely reported. Here, we found that, compared with a control treatment, a 10 mM γ-aminobutyric acid (GABA) treatment remarkably delayed the loss of tiftratable acidity and malate and increased the succinate and oxalate contents in "Cripps Pink" fruit stored in polyethylene bags at room temperature. The higher malate levels in GABA-treated fruit were accompanied by higher activities of cytosolic nicotinamide adenine dinucleotide-dependent malate dehydrogenase (cyNAD-MDH) and phosphoenolpyruvate carboxylase (PEPC) but lower cytosolic NAD phosphate-dependent malic enzyme (cyNADP-ME) and phosphoenolpyruvate carboxykinase (PEPCK) activities than those seen in control fruit. Notably, ethylene production was significantly reduced by GABA treatment, paralleling the downregulation of MdACS, MdACO, and MdERF expression. Meanwhile, GABA treatment also enhanced the activity of the GABA shunt and promoted the accumulation of GABA. This study provides new insights into the regulation of malate metabolism and reports for the first time the possible interplay between GABA and ethylene signaling pathways in apple fruit during postharvest storage.