Nitric oxide-mediated posttranslational modifications control neurotransmitter release by modulating complexin farnesylation and enhancing its clamping ability.

Nitric oxide (NO) regulates neuronal function and thus is critical for tuning neuronal communication. Mechanisms by which NO modulates protein function and interaction include posttranslational modifications (PTMs) such as S-nitrosylation. Importantly, cross signaling between S-nitrosylation and prenylation can have major regulatory potential. However, the exact protein targets and resulting changes in function remain elusive. Here, we interrogated the role of NO-dependent PTMs and farnesylation in synaptic transmission. We found that NO compromises synaptic function at the Drosophila neuromuscular junction (NMJ) in a cGMP-independent manner. NO suppressed release and reduced the size of available vesicle pools, which was reversed by glutathione (GSH) and occluded by genetic up-regulation of GSH-generating and de-nitrosylating glutamate-cysteine-ligase and S-nitroso-glutathione reductase activities. Enhanced nitrergic activity led to S-nitrosylation of the fusion-clamp protein complexin (cpx) and altered its membrane association and interactions with active zone (AZ) and soluble N-ethyl-maleimide-sensitive fusion protein Attachment Protein Receptor (SNARE) proteins. Furthermore, genetic and pharmacological suppression of farnesylation and a nitrosylation mimetic mutant of cpx induced identical physiological and localization phenotypes as caused by NO. Together, our data provide evidence for a novel physiological nitrergic molecular switch involving S-nitrosylation, which reversibly suppresses farnesylation and thereby enhances the net-clamping function of cpx. These data illustrate a new mechanistic signaling pathway by which regulation of farnesylation can fine-tune synaptic release

Copy-number variation of the neuronal glucose transporter gene SLC2A3 and age of onset in Huntington's disease

Huntington's disease (HD) is a devastating neurodegenerative disorder which is inherited in an autosomal dominant manner. HD is caused by a trinucleotide CAG repeat expansion that encodes a polyglutamine stretch in the huntingtin (HTT) protein. Mutant HTT expression leads to a myriad of cellular dysfunctions culminating in neuronal loss and consequent motor, cognitive and psychiatric disturbances in HD patients. The length of the CAG repeat is inversely correlated with age of onset (AO) in HD patients, while environmental and genetic factors can further modulate this parameter. Here, we explored whether the recently described copy-number variation (CNV) of the gene SLC2A3-which encodes the neuronal glucose transporter GLUT3-could modulate AO in HD. Strikingly, we found that increased dosage of SLC2A3 delayed AO in an HD cohort of 987 individuals, and that this correlated with increased levels of GLUT3 in HD patient cells. To our knowledge this is the first time that CNV of a candidate gene has been found to modulate HD pathogenesis. Furthermore, we found that increasing dosage of Glut1-the Drosophila melanogaster homologue of this glucose transporter-ameliorated HD-relevant phenotypes in fruit flies, including neurodegeneration and life expectancy. As alterations in glucose metabolism have been implicated in HD pathogenesis, this study may have important therapeutic relevance for HD

A novel role for kynurenine 3-monooxygenase in mitochondrial dynamics.

The enzyme kynurenine 3-monooxygenase (KMO) operates at a critical branch-point in the kynurenine pathway (KP), the major route of tryptophan metabolism. As the KP has been implicated in the pathogenesis of several human diseases, KMO and other enzymes that control metabolic flux through the pathway are potential therapeutic targets for these disorders. While KMO is localized to the outer mitochondrial membrane in eukaryotic organisms, no mitochondrial role for KMO has been described. In this study, KMO deficient Drosophila melanogaster were investigated for mitochondrial phenotypes in vitro and in vivo. We find that a loss of function allele or RNAi knockdown of the Drosophila KMO ortholog (cinnabar) causes a range of morphological and functional alterations to mitochondria, which are independent of changes to levels of KP metabolites. Notably, cinnabar genetically interacts with the Parkinson’s disease associated genes Pink1 and parkin, as well as the mitochondrial fission gene Drp1, implicating KMO in mitochondrial dynamics and mitophagy, mechanisms which govern the maintenance of a healthy mitochondrial network. Overexpression of human KMO in mammalian cells finds that KMO plays a role in the post-translational regulation of DRP1. These findings reveal a novel mitochondrial role for KMO, independent from its enzymatic role in the kynurenine pathway

FACTORS AFFECTING MIGRATION FROM THE CROATIAN RURAL AREA

U radu se daju rezultati istraživanja migracija u seoskom području Republike Hrvatske. Cilj je istražiti čimbenike koji utječu na iseljavanje seoskog stanovništva Republike Hrvatske. Istraživanje je provedeno 2007. godine na uzorku od 914 ispitanika dobi od 24 do 45 godina u seoskom području Republike Hrvatske. Odabir naselja i ispitanika bio je slučajan. Provedeno istraživanje pokazuje da su najveće poteškoće života u hrvatskom seoskom području gospodarske naravi, manjak zaposlenja, slaba mogućnost izbora zanimanja i niža zarada u odnosu na zaposlenje u gradu. Petina ispitanika nije zadovoljna uvjetima seoskog života i namjerava se iseliti. To je zabrinjavajući pokazatelj budući da se radi o populaciji koja je u pravilu završila proces obrazovanja i većinom osnovala obitelj. Najviše mogućih iseljenika, što je bilo i za očekivati, je iz gospodarski nerazvijenih područja Republike Hrvatske. Daljnja depopulacija hrvatskog sela bila bi pogubna, a njene najveće posljedice bile bi: prevelika urbanizacija, posebice velikih gradova, daljnji neravnomjerni razvitak Republike Hrvatske te nedovoljno iskorištenje prostornog, proizvodnog i ljudskog potencijala. S obzirom na strateški cilj ulaska Republike Hrvatske u Europsku uniju, navedeno predstavlja bitno ograničenje njene uspješne prilagodbe europskoj ekonomskoj integraciji. Iseljavanje seoskog pučanstva može se spriječiti prvenstveno povećanjem zaposlenosti i dohotka te stvaranjem takve fizičke i društvene infrastrukture u seoskom području koja će bitno poboljšati životne uvjete seoskog pučanstva. Seoska područja, poglavito gospodarski nerazvijena, nemaju dovoljno vlastitih mogućnosti za ubrzanje razvoja odnosno za nužno smanjivanje razlika u kakvoći življenja prema gradskim područjima. Zbog toga je nužno da njihov razvojni proces više nego dosada potpomogne Država osmišljenim mjerama regionalnog razvoja, uz svekoliku potporu lokalne uprave i samouprave. U tome bi svoj znatan obol trebalo dati novo-osnovano Ministarstvo za regionalni razvoj.The paper presents results of the research study on migrations in rural areas of the Republic of Croatia. The aim was to determine factors influencing migrations of rural population in Croatia. The research was carried out in 2007 on 914 respondents from 25 to 45 years of age. The rural communities and respondents were selected on a random basis. The study results indicate that the major difficulties in rural life in Croatia are of economic nature: lack of employment opportunities, inadequate choice of profession and lower income in comparison with employment in urban areas. One fifth of the respondents is not satisfied with conditions of rural life and intends to leave villages. This is a very disturbing indicator, since it refers to population, which in general, has finished education and started a family. As we expect, the largest number of potential migrants comes from economically underdeveloped Croatian areas. Further depopulation of Croatian villages would have dramatic effects, and the worst consequences would be excessive urbanization, especially of large cities, further uneven development of the Republic of Croatia, and insufficient utilization of spatial, production and human resources. Since the strategic Croatian goal is to become a member of the European Union, this is a major obstacle to its successful adjustment to the European economic integration. The migration of rural population could be prevented primarily by increase in employment and income opportunities and creation of such physical and social infrastructure in rural areas that would considerably improve living conditions for rural population. The rural areas, particularly underdeveloped, have no adequate capacities for intensification of its development and diminishing differences in their quality of life compared to urban areas. Thus, the state support is increasingly required by introducing measures of regional development with complementary support of the local government. The newly founded Ministry of Regional Development is therefore inevitable in this process

Effects and fate of sediment-sorbed linear alkylbenzene sulphonate (LAS) on the bivalve mollusk Mytilus galloprovincialis Lmk.

The toxicity of LAS on aquatic animals has been evaluated in particular relation to its concentration in water, although it is well known that sediments play an important role as repositories and sources of many contaminants, including surfactants. The aim of this study was to evaluate the effects of sediment-sorbed LAS on the marine mussel Mytilus galloprovincialis exposed to sediments drugged with 132 mg/kg dry weight of LAS mixtures. Four experiments were performed and some physiological parameters (filtration, oxygen uptake, nitrogen excretion) were measured on control and treated animals. In order to study uptake and release of sediment-sorbed LAS by mussels, quantification of weight, percentage of organic matter, LAS concentration and LAS homologue distribution on faeces were determined. Results showed no significant differences in physiological responses of treated mussels compared to controls, and the absence of a toxic action of LAS contaminated sediments. Moreover one notable aspect was that higher LAS concentrations were found in faeces than in uningested sediments recovered from water. This fact is tentatively explained either as the result of decreased desorption in the mussel intestinal tract with respect to circulating water, or as enrichment in fine particles by mussel filter feeding activity

Establishment dynamics of native and exotic plants after disturbance along roadsides

Questions: How does small-scale soil disturbance influence establishment dynamics of native and exotic species along roadsides? Does soil disturbance provide potential opportunities to exotic invasions along elevational gradients? Does the established plant community after disturbance reflect the surrounding vegetation?. Location: Prealps, Italy. Methods: To disentangle the role of elevation and soil disturbance in promoting exotic invasions, we performed a manipulative experiment along 12 roads spanning an elevational gradient of ca. 1,200 m. Additionally, we sampled species richness of native and exotic plants in the surroundings of the experimental plots. Results: Soil disturbance reduced species richness of native plants, total plant biomass and vegetation cover compared to the undisturbed plots. The decrease in species richness of natives and plant biomass was stronger at higher than lower elevations, suggesting higher colonization opportunities for exotics. However, exotic species richness did not increase with disturbance, probably due to a low propagule and colonization pressure. We observed strong species replacement between control and disturbed plots, indicating that plant communities established after disturbance were not a subset of species communities already occurring in the surrounding vegetation. Conclusions: With increasing elevation, disturbance had a stronger negative effect on native than on exotic species. Higher elevations, hitherto considered to have low invasibility, may provide new potential colonization opportunities for exotics but only if disturbance is coupled with an increased propagule pressure. Disturbance along roadsides promoted the establishment of species that did not occur in the surrounding vegetation

Molecular Dissection of the 5' Region of no-on-transientA of Drosophila melanogaster Reveals cis-Regulation by Adjacent dGpi1 Sequences.

The nonA gene of Drosophila melanogaster is important for normal vision, courtship song, and viability and lies approximately 350 bp downstream of the dGpi1 gene. Full rescue of nonA mutant phenotypes can be achieved by transformation with a genomic clone that carries approximately 2 kb of 5' regulatory material and that encodes most of the coding sequence of dGpi1. We have analyzed this 5' region by making a series of deleted fragments, fusing them to yeast GAL4 sequences, and driving UAS-nonA expression in a mutant nonA background. Regions that both silence and enhance developmental tissue-specific expression of nonA and that are necessary for generating optomotor visual responses are identified. Some of these overlap the dGpi1 sequences, revealing cis-regulation by neighboring gene sequences. The largest 5' fragment was unable to rescue the normal electroretinogram (ERG) consistently, and no rescue at all was observed for the courtship song phenotype. We suggest that sequences within the nonA introns that were missing in the UAS-nonA cDNA may carry enhancer elements for these two phenotypes. Finally, we speculate on the striking observation that some of the cis-regulatory regions of nonA appear to be embedded within the coding regions of dGpi1

Molecular dissection of the 5\u2032 region of no-on-transientA of Drosophila melanogaster reveals cis-regulation by adjacent dGpi1 sequences

The nonA gene of Drosophila melanogaster is important for normal vision, courtship song, and viability and lies 3c350 bp downstream of the dGpi1 gene. Full rescue of nonA mutant phenotypes can be achieved by transformation with a genomic clone that carries 3c2 kb of 5\u2032 regulatory material and that encodes most of the coding sequence of dGpi1. We have analyzed this 5\u2032 region by making a series of deleted fragments, fusing them to yeast GAL4 sequences, and driving UAS-nonA expression in a mutant nonA background. Regions that both silence and enhance developmental tissue-specific expression of nonA and that are necessary for generating optomotor visual responses are identified. Some of these overlap the dGpi1 sequences, revealing cis-regulation by neighboring gene sequences. The largest 5\u2032 fragment was unable to rescue the normal electroretinogram (ERG) consistently, and no rescue at all was observed for the courtship song phenotype. We suggest that sequences within the nonA introns that were missing in the UAS-nonA cDNA may carry enhancer elements for these two phenotypes. Finally, we speculate on the striking observation that some of the cis-regulatory regions of nonA appear to be embedded within the coding regions of dGpi1