Effects of diet on synaptic vesicle release in dynactin complex mutants: a mechanism for improved vitality during motor disease

Synaptic dysfunction is considered the primary substrate for the functional declines observed within the nervous system during age-related neurodegenerative disease. Dietary restriction (DR), which extends lifespan in numerous species, has been shown to have beneficial effects on many neurodegenerative disease models. Existing data sets suggest that the effects of DR during disease include the amelioration of synaptic dysfunction but evidence of the beneficial effects of diet on the synapse is lacking. Dynactin mutant flies have significant increases in mortality rates and exhibit progressive loss of motor function. Using a novel fly motor disease model, we demonstrate that mutant flies raised on a low calorie diet have enhanced motor function and improved survival compared to flies on a high calorie diet. Neurodegeneration in this model is characterized by an early impairment of neurotransmission that precedes the deterioration of neuromuscular junction (NMJ) morphology. In mutant flies, low calorie diet increases neurotransmission, but has little effect on morphology, supporting the hypothesis that enhanced neurotransmission contributes to the effects of diet on motor function. Importantly, the effects of diet on the synapse are not because of the reduction of mutant pathologies, but by the increased release of synaptic vesicles during activity. The generality of this effect is demonstrated by the observation that diet can also increase synaptic vesicle release at wild-type NMJs. These studies reveal a novel presynaptic mechanism of diet that may contribute to the improved vigor observed in mutant flies raised on low calorie diet.     

An inwardly rectifying K+ channel is required for patterning

Mutations that disrupt function of the human inwardly rectifying potassium channel KIR2.1 are associated with the craniofacial and digital defects of Andersen-Tawil Syndrome, but the contribution of Kir channels to development is undefined. Deletion of mouse Kir2.1 also causes cleft palate and digital defects. These defects are strikingly similar to phenotypes that result from disrupted TGFβ/BMP signaling. We use Drosophila melanogaster to show that a Kir2.1 homolog, Irk2, affects development by disrupting BMP signaling. Phenotypes of irk2 deficient lines, a mutant irk2 allele, irk2 siRNA and expression of a dominant-negative Irk2 subunit (Irk2DN) all demonstrate that Irk2 function is necessary for development of the adult wing. Compromised Irk2 function causes wing-patterning defects similar to those found when signaling through a Drosophila BMP homolog, Decapentaplegic (Dpp), is disrupted. To determine whether Irk2 plays a role in the Dpp pathway, we generated flies in which both Irk2 and Dpp functions are reduced. Irk2DN phenotypes are enhanced by decreased Dpp signaling. In wild-type flies, Dpp signaling can be detected in stripes along the anterior/posterior boundary of the larval imaginal wing disc. Reducing function of Irk2 with siRNA, an irk2 deletion, or expression of Irk2DN reduces the Dpp signal in the wing disc. As Irk channels contribute to Dpp signaling in flies, a similar role for Kir2.1 in BMP signaling may explain the morphological defects of Andersen-Tawil Syndrome and the Kir2.1 knockout mouse.     

Metabolic proteomics of the liver and mammary gland during lactation

The liver and the mammary gland have complementary metabolic roles during lactation. Glucose synthesized by the liver is released into the circulation and is taken up by the mammary gland where major metabolic products of glucose include milk sugar (lactose) and the glycerol backbone of milk fat (triglycerides). Hepatic synthesis of glucose is often accompanied by β-oxidation in that organ to provide energy for glucose synthesis, while mammary gland synthesizes rather than oxidizes fat during lactation. We have therefore compared enzyme abundances between the liver and mammary gland of lactating Friesian cows where metabolic output is well established. Quantitative differences in protein amount were assessed using two-dimensional differential in-gel electrophoresis. As predicted, the abundances of enzymes catalysing gluconeogenesis and β-oxidation were greatest in the liver, and enzyme abundances in mammary tissue were consistent with fat synthesis rather than β-oxidation.     

毒蕈碱型乙酰胆碱受体的鼻黏膜效应

副交感神经参与鼻黏膜腺体和血管的功能调节.当各种异物、细菌、病毒或真菌侵入机体时, 鼻黏膜微环境发生改变, 这种变化刺激副交感神经释放乙酰胆碱.后者与调节鼻腺体和血管的毒蕈碱型乙酰胆碱受体 (M-ChR) 结合,导致鼻炎流涕和鼻塞.这种整体调节反射对下呼吸道起重要的防御性保护作用. 目前发现五种M-ChR亚型(M1-至M5- ChR),鼻黏膜有M1-至 M3- ChR亚型.高密度的M1-和M3- ChR共存于黏膜下腺黏液和浆液细胞, M3-ChR主要分布于血管.M-ChR对鼻腺体和血管的直接调节作用是通过细胞内腺苷酸环化酶和磷酯酶C激活.     

Novel species-specific glycoprotein on the surface of Mytilus edulis and M. trossulus eggs

Protein–protein interactions play a central role in the gamete attraction, binding, and fusion stages of gamete interactions and fertilization for broadcast spawning species, such as marine mussels in the Mytilus edulis species complex. Although assortative gamete interaction has been implicated in the level of reproductive isolation among the three species in this complex, the molecular basis of these interactions has not been elucidated. Using mass spectrometry peptide sequencing, cDNA sequencing, and bioinformatics approaches, we have investigated species-level variation in the proteins expressed on the surface of mussel eggs. We herein describe an extracellular protein, MESP-1, from the surface of the eggs of M. edulis and M. trossulus that has a unique domain structure when compared to protein structures that have heretofore been identified. Given variation in the size of MESP-1 predicted from cDNA sequences versus those estimated from SDS-PAGE gels, we conclude this protein is subject to significant species-specific post-translation modifications. Further, bioinformatic analysis of the novel structure of MESP-1 suggests that this protein may be an integral membrane protein involved in sperm–egg fusion, and/or released to the vitelline envelope.     

Detrimental effects of cryopreservation of loach (Misgurnus fossilis) sperm on subsequent embryo development are reversed by incubating fertilised eggs in caffeine

Cryopreservation can cause changes to the genetic material of cells, but the mechanism and significance of these changes are still unknown. It has been suggested that some damage to the sperm genome could be repaired by the DNA repair system of the oocyte after fertilisation. Caffeine has been reported to be an inhibitor of such repair processes. In this study the effect of caffeine on the repair system of Loach (Misgurnus fossilis) oocytes was investigated. Loach eggs were fertilised using cryopreserved sperm. Embryos derived from cryopreserved sperm were exposed to 2.6mM caffeine for 1h after fertilisation. The experiments were carried out using 32313 embryos from four females and eight males. Embryo survival was evaluated for 46 h until the hatching stage. Reduction in embryo survival after 20th stage is generally believed to result from the failure in the genome function of embryos. Cryopreservation of sperm significantly decreased embryo survival (53.4+/-2.8% compared to 68.4+/-2.8% of control) after the 20th stage. However, the addition of caffeine to the embryos derived from cryopreserved sperm, in contrast to our expectation, significantly increased survival of loach embryos (70.9+/-2.8% compared to 53.4+/-2.8% of embryos derived from cryopreserved sperm in the absence of caffeine). The effect of individual donors of sperm and eggs on overall embryo survival was also studied. Whilst no significant differences were observed between males, the effect of individual females on embryo survival was significant. The analysis of embryo survival at different developmental stages showed that embryo survival both before and after 20th stage decreased with embryo development. When fresh sperm were used the decline of embryo survival with development was more pronounced compared with those embryos derived from cryopreserved sperm. Possible explanations of these effects are presented.