Effects of Exercise Intervention on the Improvement of Polycystic Ovary Syndrome

Polycystic ovary syndrome (PCOS) is a complex endocrine and metabolic disease characterized by hyperandrogenism and insulin resistance. It results in irregular menstruation, obesity and even infertility, which influences badly physical and mental health of the patients. Now, there is no effective drug for treating PCOS and the preferred program is lifestyle modification, including diet control, regular exercise and behavior therapy. Therefore, in the review, we summarize the study progress concerning the effects of lifestyle intervention on the metabolic, reproductive and psychological dysfunctions of PCOS patients and analyze the corresponding mechanisms in these processes. It can radically reduce the factors of PCOS occurrence and development, while providing valuable information for the prevention and treatment of PCOS and is helpful for further research

Lipid droplets as ubiquitous fat storage organelles in C. elegans

Abstract Background Lipid droplets are a class of eukaryotic cell organelles for storage of neutral fat such as triacylglycerol (TAG) and cholesterol ester (CE). We and others have recently reported that lysosome-related organelles (LROs) are not fat storage structures in the nematode C. elegans. We also reported the formation of enlarged lipid droplets in a class of peroxisomal fatty acid β-oxidation mutants. In the present study, we seek to provide further evidence on the organelle nature and biophysical properties of fat storage structures in wild-type and mutant C. elegans. Results In this study, we provide biochemical, histological and ultrastructural evidence of lipid droplets in wild-type and mutant C. elegans that lack lysosome related organelles (LROs). The formation of lipid droplets and the targeting of BODIPY fatty acid analogs to lipid droplets in live animals are not dependent on lysosomal trafficking or peroxisome dysfunction. However, the targeting of Nile Red to lipid droplets in live animals occurs only in mutants with defective peroxisomes. Nile Red labelled-lipid droplets are characterized by a fluorescence emission spectrum distinct from that of Nile Red labelled-LROs. Moreover, we show that the recently developed post-fix Nile Red staining method labels lipid droplets exclusively. Conclusions Our results demonstrate lipid droplets as ubiquitous fat storage organelles and provide a unified explanation for previous studies on fat labelling methods in C. elegans. These results have important applications to the studies of fat storage and lipid droplet regulation in the powerful genetic system, C. elegans.Peer Reviewe

Sex-dimorphic gene expression and ineffective dosage compensation of Z-linked genes in gastrulating chicken embryos

<p>Abstract</p> <p>Background</p> <p>Considerable progress has been made in our understanding of sex determination and dosage compensation mechanisms in model organisms such as <it>C. elegans</it>, <it>Drosophila </it>and <it>M. musculus</it>. Strikingly, the mechanism involved in sex determination and dosage compensation are very different among these three model organisms. Birds present yet another situation where the heterogametic sex is the female. Sex determination is still poorly understood in birds and few key determinants have so far been identified. In contrast to most other species, dosage compensation of bird sex chromosomal genes appears rather ineffective.</p> <p>Results</p> <p>By comparing microarrays from microdissected primitive streak from single chicken embryos, we identified a large number of genes differentially expressed between male and female embryos at a very early stage (Hamburger and Hamilton stage 4), long before any sexual differentiation occurs. Most of these genes are located on the Z chromosome, which indicates that dosage compensation is ineffective in early chicken embryos. Gene ontology analyses, using an enhanced annotation tool for Affymetrix probesets of the chicken genome developed in our laboratory (called Manteia), show that among these male-biased genes found on the Z chromosome, more than 20 genes play a role in sex differentiation.</p> <p>Conclusions</p> <p>These results corroborate previous studies demonstrating the rather inefficient dosage compensation for Z chromosome in birds and show that this sexual dimorphism in gene regulation is observed long before the onset of sexual differentiation. These data also suggest a potential role of non-compensated Z-linked genes in somatic sex differentiation in birds.</p

CRL4 antagonizes SCFFbxo7-mediated turnover of cereblon and BK channel to regulate learning and memory

Intellectual disability (ID), one of the most common human developmental disorders, can be caused by genetic mutations in Cullin 4B (Cul4B) and cereblon (CRBN). CRBN is a substrate receptor for the Cul4A/B-DDB1 ubiquitin ligase (CRL4) and can target voltage- and calcium-activated BK channel for ER retention. Here we report that ID-associated CRL4CRBNmutations abolish the interaction of the BK channel with CRL4, and redirect the BK channel to the SCFFbxo7ubiquitin ligase for proteasomal degradation. Glioma cell lines harbouring CRBN mutations record density-dependent decrease of BK currents, which can be restored by blocking Cullin ubiquitin ligase activity. Importantly, mice with neuron-specific deletion of DDB1 or CRBN express reduced BK protein levels in the brain, and exhibit similar impairment in learning and memory, a deficit that can be partially rescued by activating the BK channel. Our results reveal a competitive targeting of the BK channel by two ubiquitin ligases to achieve exquisite control of its stability, and support changes in neuronal excitability as a common pathogenic mechanism underlying CRL4CRBN–associated ID

Kidney development: roles of Sprouty, Wnt2b and type XVIII collagen in the ureteric bud morphogenesis

Abstract The mammalian metanephric kidney develops through ureteric bud branching morphogenesis and tubule formation and involves secreted inductive signals and possibly their antagonists to regulate the process. Sprouty (spry) genes encode antagonists of FGFs and the EGF signalling pathways. To get an insight to potential developmental roles of the spry genes, the expression of spry1, 2 and 4 was analyzed in developing kidney. Spry1 is expressed in the ureteric bud, and spry2 and 4 in the ureteric bud, the kidney mesenchyme and the nephrons deriving from it suggesting developmental roles for the sprys in kidney development. Spry function was addressed in vivo in the kidney by targeting hspry2 expression to the ureteric bud with a Pax2 promoter. Hspry2 expression led to development of small, ectopic and cystic kidneys. Ureter branching was reduced and there was less glomeruli in a smaller kidney compared to the wild type controls. Spry2 may antagonize signalling of FGF2 and lead to changes in FGFR1 and FGFR3 expression. In organ culture ectopic FGFs restored ureteric branching of the hSpry2 transgenic kidneys suggesting that hSpry2 may antagonize FGF signalling in embryonic kidney. In addition to changes in FGFs, hspry2 expression also lead to downregulation of GDNF and BMP4. We conclude that the Sprouty-FGFs-FGFR signaling is important for kidney development. Wnt2b is a recently identified member of the Wnt family of secreted growth factors, but its function in organogenesis is unknown. In the kidney Wnt2b is localized to the perinephric mesenchymal cells at the initiation of organogenesis. Wnt2b signalling supported ureteric bud growth and branching in vitro. Ureteric bud that was co-cultured with Wnt2b expressive cells or incubated with a known Wnt pathway regulator lithium, and then recombined with isolated kidney mesenchyme led to recovery of the expression of some ureteric epithelial marker genes and reconstitution of early kidney development. Hence, Wnt2b signalling is critical for induction of ureteric branching in vitro. Type XVIII collagen is a matrix molecule and may be involved in Wnt signalling. Roles of type XVIII collagen in kidney and lung organogenesis was analysed. Type XVIII collagen expression correlated with the differences in epithelial branching in both of these organs and its expression in the epithelial tissue was mutually exclusive. In recombinants of ureteric bud and lung mesenchyme, type XVIII collagen expression pattern shifted from kidney to lung type and was accompanied by a shift in epithelial Sonic Hedgehog (Shh) expression and by ectopic lung Surfactant Protein C in the ureteric bud. Blocking of type XVIII collagen function prevented ureteric development with lung mesenchyme and associated with reduction in the expression of Wnt2. Taken together, the findings suggest critical roles for Sprouty2, Wnt2b and type XVIII collagen in controlling pattern formation and the mode of ureteric bud branching in the embryonic kidney

Theoretical Studies on the Potential of Hypoiodous Acid to Self-Nucleate in Marine Regions

The formation of new marine particles is closely correlated with the iodine-containing substances emitted by marine algae. Hypoiodous acid (HIO) is a common iodine oxoacid in marine regions. However, the potential of HIO to take part in the nucleation process and the relevant mechanism remain to be fully investigated. Herein, this study investigated the self-nucleation of HIO in marine regions and found that, although HIO can form (HIO)2-6 clusters via medium hydrogen bonds, the (HIO)2-6 clusters are inherently unstable. Therefore, the self-nucleation of HIO in marine regions is almost impossible. Moreover, compared with HIO molecules, HIO monomer is more inclined to bond with iodic acid (HIO3) molecules. This work may help to understand the new particle formation involving iodine oxoacids more comprehensively