101 research outputs found
Stages of neuronal network formation
Graph theoretical approaches have become a powerful tool for
investigating the architecture and dynamics of complex networks. The topology
of network graphs revealed small-world properties for very different real
systems among these neuronal networks. In this study, we observed the early
development of mouse retinal ganglion cell (RGC) networks in vitro using timelapse
video microscopy. By means of a time-resolved graph theoretical analysis
of the connectivity, shortest path length and the edge length, we were able to
discover the different stages during the network formation. Starting from single
cells, at the first stage neurons connected to each other ending up in a network
with maximum complexity. In the further course, we observed a simplification of
the network which manifested in a change of relevant network parameters such
as the minimization of the path length. Moreover, we found that RGC networks
self-organized as small-world networks at both stages; however, the optimization
occurred only in the second stage
Weapons Make the Man (Larger): Formidability Is Represented as Size and Strength in Humans
In order to determine how to act in situations of potential agonistic conflict, individuals must assess multiple features of a prospective foe that contribute to the foe's resource-holding potential, or formidability. Across diverse species, physical size and strength are key determinants of formidability, and the same is often true for humans. However, in many species, formidability is also influenced by other factors, such as sex, coalitional size, and, in humans, access to weaponry. Decision-making involving assessments of multiple features is enhanced by the use of a single summary variable that encapsulates the contributions of these features. Given both a) the phylogenetic antiquity of the importance of size and strength as determinants of formidability, and b) redundant experiences during development that underscore the contributions of size and strength to formidability, we hypothesize that size and strength constitute the conceptual dimensions of a representation used to summarize multiple diverse determinants of a prospective foe's formidability. Here, we test this hypothesis in humans by examining the effects of a potential foe's access to weaponry on estimations of that individual's size and strength. We demonstrate that knowing that an individual possesses a gun or a large kitchen knife leads observers to conceptualize him as taller, and generally larger and more muscular, than individuals who possess only tools or similarly mundane objects. We also document that such patterns are not explicable in terms of any actual correlation between gun ownership and physical size, nor can they be explained in terms of cultural schemas or other background knowledge linking particular objects to individuals of particular size and strength. These findings pave the way for a fuller understanding of the evolution of the cognitive systems whereby humans â and likely many other social vertebrates â navigate social hierarchies
Genetic Deletion of Laminin Isoforms ÎČ2 and Îł3 Induces a Reduction in Kir4.1 and Aquaporin-4 Expression and Function in the Retina
Glial cells such as retinal MĂŒller glial cells are involved in potassium ion and water homeostasis of the neural tissue. In these cells, inwardly rectifying potassium (Kir) channels and aquaporin-4 water channels play an important role in the process of spatial potassium buffering and water drainage. Moreover, Kir4.1 channels are involved in the maintenance of the negative MĂŒller cell membrane potential. The subcellular distribution of Kir4.1 and aquaporin-4 channels appears to be maintained by interactions with extracellular and intracellular molecules. Laminins in the extracellular matrix, dystroglycan in the membrane, and dystrophins in the cytomatrix form a complex mediating the polarized expression of Kir4.1 and aquaporin-4 in MĂŒller cells.The aim of the present study was to test the function of the ÎČ2 and Îł3 containing laminins in murine MĂŒller cells. We used knockout mice with genetic deletion of both ÎČ2 and Îł3 laminin genes to assay the effects on Kir4.1 and aquaporin-4. We studied protein and mRNA expression by immunohistochemistry, Western Blot, and quantitative RT-PCR, respectively, and membrane currents of isolated cells by patch-clamp experiments. We found a down-regulation of mRNA and protein of Kir4.1 as well as of aquaporin-4 protein in laminin knockout mice. Moreover, MĂŒller cells from laminin ÎČ2 and Îł3 knockout mice had reduced Kir-mediated inward currents and their membrane potentials were more positive than those in age-matched wild-type mice.These findings demonstrate a strong impact of laminin ÎČ2 and Îł3 subunits on the expression and function of both aquaporin-4 and Kir4.1, two important membrane proteins in MĂŒller cells
Benign Orbital Tumors with Bone Destruction in Children
Purpose: To present rare benign orbital tumors with bone destruction in children who could not be diagnosed presurgically and may simulate malignant ones. Methods: A retrospective review of cases. Clinical, operative and pathological records in all children with a diagnosis of benign orbital tumors who showed remarkable bone destruction at a tertiary Ophthalmic Center in China between Jan 1, 2000 and Dec 31, 2009 were reviewed. All patients had definitive histopathologic diagnosis. Results: Eight patients with benign orbital tumors showed obvious bone destruction, including six cases of eosinophilic granuloma, one case of leiomyoma and one case of primary orbital intraosseous hemangioma. Among them, three patients were females and five patients were males. Tumors were unilateral in all cases, with both the right and left side affected equally. Age ranged from 3 to 7 years (mean 4.1 years). Symptom duration ranged from 1 to 5 weeks (mean 4.8 weeks). Eyelid swelling and palpable mass were the most common complaint. There was no evidence for multifocal involvement in cases with eosinophilic granuloma. Among six patients with eosinophilic granuloma, two were treated with low dose radiation (10 Gy), three received systemic corticosteroid and one was periodically observed only after incisional biopsy or subtotal curettage. There was no postoperative therapeutic intervention in the two patients with leiomyoma and intraosseous hemangioma. All eight patients regained normal vision without local recurrence after a mean follow-up time o
Ophthalmic Artery Chemosurgery for Less Advanced Intraocular Retinoblastoma: Five Year Review
BACKGROUND: Ophthalmic artery chemosurgery (OAC) for retinoblastoma was introduced by us 5 years ago for advanced intraocular retinoblastoma. Because the success was higher than with existing alternatives and systemic side effects limited we have now treated less advanced intraocular retinoblastoma (Reese-Ellsworth (RE) I-III and International Classification Retinoblastoma (ICRB) B and C). METHODOLOGY/PRINCIPAL FINDINGS: Retrospective review of 5 year experience in eyes with Reese Ellsworth (Table 1) I (7 eyes), II (6 eyes) or III (6 eyes) and/or International Classification (Table 2) B (19 eyes) and C (11 eyes) treated with OAC (melphalan with or without topotecan) introduced directly into the ophthalmic artery. Patient survival was 100%. Ocular event-free survival was 100% for Reese-Ellsworth Groups I, II and III (and 96% for ICRB B and C) at a median of 16 months follow-up. One ICRB Group C (Reese-Ellsworth Vb) eye could not be treated on the second attempt for technical reasons and was therefore enucleated. No patient required a port and only one patient required transfusion of blood products. The electroretinogram (ERG) was unchanged or improved in 14/19 eyes. CONCLUSIONS/SIGNIFICANCE: Ophthalmic artery chemosurgery for retinoblastoma that was Reese-Ellsworth I, II and III (or International Classification B or C) was associated with high success (100% of treatable eyes were retained) and limited toxicity with results that equal or exceed conventional therapy with less toxicity
Efficient Photodynamic Therapy against Gram-Positive and Gram-Negative Bacteria Using THPTS, a Cationic Photosensitizer Excited by Infrared Wavelength
The worldwide rise in the rates of antibiotic resistance of bacteria underlines the need for alternative antibacterial agents. A promising approach to kill antibiotic-resistant bacteria uses light in combination with a photosensitizer to induce a phototoxic reaction. Concentrations of 1, 10 and 100”M of tetrahydroporphyrin-tetratosylat (THPTS) and different incubation times (30, 90 and 180min) were used to measure photodynamic efficiency against two Gram-positive strains of S.aureus (MSSA and MRSA), and two Gram-negative strains of E.coli and P.aeruginosa. We found that phototoxicity of the drug is independent of the antibiotic resistance pattern when incubated in PBS for the investigated strains. Also, an incubation with 100”M THPTS followed by illumination, yielded a 6lg (â„99.999%) decrease in the viable numbers of all bacteria strains tested, indicating that the THPTS drug has a high degree of photodynamic inactivation. We then modulated incubation time, photosensitizer concentration and monitored the effect of serum on the THPTS activity. In doing so, we established the conditions to obtain the strongest bactericidal effect. Our results suggest that this new and highly pure synthetic compound should improve the efficiency of photodynamic therapy against multiresistant bacteria and has a significant potential for clinical applications in the treatment of nosocomial infections
A Single Amino Acid Mutation in SNAP-25 Induces Anxiety-Related Behavior in Mouse
Synaptosomal-associated protein of 25 kDa (SNAP-25) is a presynaptic protein essential for neurotransmitter release. Previously, we demonstrate that protein kinase C (PKC) phosphorylates Ser187 of SNAP-25, and enhances neurotransmitter release by recruiting secretory vesicles near to the plasma membrane. As PKC is abundant in the brain and SNAP-25 is essential for synaptic transmission, SNAP-25 phosphorylation is likely to play a crucial role in the central nervous system. We therefore generated a mutant mouse, substituting Ser187 of SNAP-25 with Ala using âknock-inâ technology. The most striking effect of the mutation was observed in their behavior. The homozygous mutant mice froze readily in response to environmental change, and showed strong anxiety-related behavior in general activity and light and dark preference tests. In addition, the mutant mice sometimes exhibited spontaneously occurring convulsive seizures. Microdialysis measurements revealed that serotonin and dopamine release were markedly reduced in amygdala. These results clearly indicate that PKC-dependent SNAP-25 phosphorylation plays a critical role in the regulation of emotional behavior as well as the suppression of epileptic seizures, and the lack of enhancement of monoamine release is one of the possible mechanisms underlying these defects
Les complexes cohésine et médiateur contrÎlent la commutation isotypique
Lors des rĂ©ponses immunitaires, les lymphocytes B diversifient leur rĂ©pertoire par lâhypermutation somatique (HMS) et la commutation isotypique (CI). Ces deux mĂ©canismes sont dĂ©pendant de lâactivitĂ© de « activation-induced cytidine deaminase » (AID), une enzyme qui dĂ©amine les cytosines de lâADN en uraciles gĂ©nĂ©rant des mĂ©sappariements qui sont processĂ©s diffĂ©remment dans le cas de lâHMS et de la CI. Au cours de la CI, le locus de la chaĂźne lourde des immunoglobulines subit un changement de conformation qui rapproche les promoteurs, les enhancers et les rĂ©gions de switch afin de permettre la recombinaison des rĂ©gions de switch. Cependant, les mĂ©canismes molĂ©culaires sous-jacents nâont pas encore Ă©tĂ© identifiĂ©. Dans le but de comprendre les mĂ©canismes de rĂ©gulation dâAID, nous avons rĂ©alisĂ© un criblage protĂ©omique et identifiĂ© CTCF ainsi que les complexes mĂ©diateur et cohĂ©sine qui constituent des facteurs prĂ©alablement impliquĂ©s dans les interactions longues distances. Au cours de ce travail de thĂšse, nous avons montrĂ© que le complexe mĂ©diateur est requis pour la transcription de la rĂ©gion de switch acceptrice, pour lâinteraction de cette derniĂšre avec lâenhancer E” et pour le recrutement dâAID au locus des IgH. Dâun autre cĂŽtĂ©, nous avons montrĂ© que le complexe cohĂ©sine est impliquĂ© dans la rĂ©paration des cassures induites par AID et quâil pourrait ĂȘtre impliquĂ© dans la recombinaison des rĂ©gions de switch.During immune responses, B cells diversify their repertoire through somatic hypermutation (SHM) and class switch recombination (CSR). Both of these mechanisms are dependent on the activity of activation-induced cytidine deaminase (AID), an enzyme that deaminates cytosines into uracils generating mismatches that are differentially processed to result in SHM and CSR. During CSR, the Ig heavy chain (IgH) locus undergoes dynamic three-dimensional structural changes in which promoters, enhancers and switch regions are brought into close proximity. Nevertheless, little is known about the underlying mechanisms. To gain insight into the molecular mechanism responsible for AID regulation during CSR, we performed a proteomic screen for AID partners and identified CTCF, cohesin and mediator complexes, which are factors previously implicated in long-range interactions. We showed that during CSR, the mediator complex is required for acceptor switch region transcription, long-range interaction between the enhancer and the acceptor switch region and AID recruitment to the IgH locus whereas the cohesin complex is required for proper AID-induced breaks repair and might favor switch regions synapsis
Les complexes cohésine et médiateur contrÎlent la commutation isotypique
During immune responses, B cells diversify their repertoire through somatic hypermutation (SHM) and class switch recombination (CSR). Both of these mechanisms are dependent on the activity of activation-induced cytidine deaminase (AID), an enzyme that deaminates cytosines into uracils generating mismatches that are differentially processed to result in SHM and CSR. During CSR, the Ig heavy chain (IgH) locus undergoes dynamic three-dimensional structural changes in which promoters, enhancers and switch regions are brought into close proximity. Nevertheless, little is known about the underlying mechanisms. To gain insight into the molecular mechanism responsible for AID regulation during CSR, we performed a proteomic screen for AID partners and identified CTCF, cohesin and mediator complexes, which are factors previously implicated in long-range interactions. We showed that during CSR, the mediator complex is required for acceptor switch region transcription, long-range interaction between the enhancer and the acceptor switch region and AID recruitment to the IgH locus whereas the cohesin complex is required for proper AID-induced breaks repair and might favor switch regions synapsis.Lors des rĂ©ponses immunitaires, les lymphocytes B diversifient leur rĂ©pertoire par lâhypermutation somatique (HMS) et la commutation isotypique (CI). Ces deux mĂ©canismes sont dĂ©pendant de lâactivitĂ© de « activation-induced cytidine deaminase » (AID), une enzyme qui dĂ©amine les cytosines de lâADN en uraciles gĂ©nĂ©rant des mĂ©sappariements qui sont processĂ©s diffĂ©remment dans le cas de lâHMS et de la CI. Au cours de la CI, le locus de la chaĂźne lourde des immunoglobulines subit un changement de conformation qui rapproche les promoteurs, les enhancers et les rĂ©gions de switch afin de permettre la recombinaison des rĂ©gions de switch. Cependant, les mĂ©canismes molĂ©culaires sous-jacents nâont pas encore Ă©tĂ© identifiĂ©. Dans le but de comprendre les mĂ©canismes de rĂ©gulation dâAID, nous avons rĂ©alisĂ© un criblage protĂ©omique et identifiĂ© CTCF ainsi que les complexes mĂ©diateur et cohĂ©sine qui constituent des facteurs prĂ©alablement impliquĂ©s dans les interactions longues distances. Au cours de ce travail de thĂšse, nous avons montrĂ© que le complexe mĂ©diateur est requis pour la transcription de la rĂ©gion de switch acceptrice, pour lâinteraction de cette derniĂšre avec lâenhancer E” et pour le recrutement dâAID au locus des IgH. Dâun autre cĂŽtĂ©, nous avons montrĂ© que le complexe cohĂ©sine est impliquĂ© dans la rĂ©paration des cassures induites par AID et quâil pourrait ĂȘtre impliquĂ© dans la recombinaison des rĂ©gions de switch
- âŠ