The role of sphingosine-1-phosphate in endothelial barrier function

Loss of endothelial barrier function is implicated in the etiology of metastasis, atherosclerosis, sepsis and many other diseases. Studies suggest that sphingosine-1-phosphate (S1P), particularly HDL-bound S1P (HDL–S1P) is essential for endothelial barrier homeostasis and that HDL–S1P may be protective against the loss of endothelial barrier function in disease. This review summarizes evidence providing mechanistic insights into how S1P maintains endothelial barrier function, highlighting the recent findings that implicate the major S1P carrier, HDL, in the maintenance of the persistent S1P-signaling needed to maintain endothelial barrier function. We review the mechanisms proposed for HDL maintenance of persistent S1P-signaling, the evidence supporting these mechanisms and the remaining fundamental questions.     

Molecular basis of albinism in India: Evaluation of seven potential candidate genes and some new findings

Albinism represents a group of genetic disorders with a broad spectrum of hypopigmentary phenotypes dependent on the genetic background of the patients. Oculocutaneous albinism (OCA) patients have little or no pigment in their eyes, skin and hair, whereas ocular albinism (OA) primarily presents the ocular symptoms, and the skin and hair color may vary from near normal to very fair. Mutations in genes directly or indirectly regulating melanin production are responsible for different forms of albinism with overlapping clinical features. In this study, 27 albinistic individuals from 24 families were screened for causal variants by a PCR-sequencing based approach. TYR, OCA2, TYRP1, SLC45A2, SLC24A5, TYRP2 and SILV were selected as candidate genes. We identified 5 TYR and 3 OCA2 mutations, majority in homozygous state, in 8 unrelated patients including a case of autosomal recessive ocular albinism (AROA). A homozygous 4-nucleotide novel insertion in SLC24A5 was detected in a person showing with extreme cutaneous hypopigmentation. A potential causal variant was identified in the TYRP2 gene in a single patient. Haplotype analyses in the patients carrying homozygous mutations in the classical OCA genes suggested founder effect. This is the first report of an Indian AROA patient harboring a mutation in OCA2. Our results also reveal for the first time that mutations in SLC24A5 could contribute to extreme hypopigmentation in humans.     

Mitochondrial alterations in Parkinson's disease: new clues

Mitochondrial dysfunction has long been associated with Parkinson's disease (PD). In particular, complex I impairment and subsequent oxidative stress have been widely demonstrated in experimental models of PD and in post-mortem PD samples. A recent wave of new studies is providing novel clues to the potential involvement of mitochondria in PD. In particular, (i) mitochondria-dependent programmed cell death pathways have been shown to be critical to PD-related dopaminergic neurodegeneration, (ii) many disease-causing proteins associated with familial forms of PD have been demonstrated to interact either directly or indirectly with mitochondria, (iii) aging-related mitochondrial changes, such as alterations in mitochondrial DNA, are increasingly being associated with PD, and (iv) anomalies in mitochondrial dynamics and intra-neuronal distribution are emerging as critical participants in the pathogenesis of PD. These new findings are revitalizing the field and reinforcing the potential role of mitochondria in the pathogenesis of PD. Whether a primary or secondary event, or part of a multi-factorial pathogenic process, mitochondrial dysfunction remains at the forefront of PD research and holds the promise as a potential molecular target for the development of new therapeutic strategies for this devastating, currently incurable, disease.     

Reduced expression of neuropeptide genes in a genome-wide screen of a secretion-deficient mouse

Activity-dependent changes in synapses rely on functional changes in resident proteins and on gene expression. We addressed the relationship between synapse activity and the expression of synaptic genes by comparing RNA levels in the neocortex of normal mice versus secretion-deficient and therefore synaptically silent munc18-1 (mammalian homologue of Caenorhabditis elegans uncoordinated locomotion-18) null mutants, using microarray expression analysis, real-time quantitative PCR and northern blotting. We hypothesized that genes under the control of synaptic activity would be differentially expressed between mutants and controls. We found that few synaptic genes were differentially expressed. However, most neuropeptide genes with detectable expression on the microarray were differentially expressed, being expressed 3-20-fold higher in control cortex. Several other secreted proteins were also differentially expressed, but genes encoding their receptors and many other synaptic components were not. Differential expression was confirmed by real-time quantitative PCR analysis. In situ hybridization indicated that the difference in neuropeptide expression was uniform and not due to the loss of specific cells in the mutant. In primary sensory neurons, which do not depend on synaptic activity for their input, the differential expression of neuropeptides was not observed. These data argue against a general relationship between the activity of synapses and the expression of their resident proteins, but suggest a link between secretion and the expression of genes encoding the secreted products.     

Evolution and functional divergence of monocarboxylate transporter genes in vertebrates

Monocarboxylate transporters (MCTs) form a gene family with an ancient past. The identification of MCTs (MCHs) from bacteria, protozoa, fungi, invertebrates, as well as vertebrates, but not from plants and virus, allowed illuminating the phylogenetic and evolutionary history of this gene family. The significant expansion of vertebrate MCT genes should have primarily occurred after the divergence of vertebrates and invertebrates, but before the divergence time between ray-finned fish and mammals. The divergence of insect MCTs should have at least occurred in the common ancestor of fruit fly, beetle, and honeybee. Fungi monocarboxylate transporter homologues (MCHs) might evolve independently from an ancient ancestor. The results of functional divergence analysis provided statistical evidences for shifted evolutionary rate and/or changes of amino acid property after gene duplication. The sliding window analysis of the d(N)/d(S) ratio values showed that strong functional constraints must impose on the N- and C-terminal domains of vertebrate MCTs. These corresponding regions may play crucial roles for functionality of MCT proteins.     

人类p53和c-myc同源基因在玉米颖果发育过程中的表达

肿瘤抑制基因p53和原癌基因c-myc已被证明在动物中高度保守并参与许多PCD过程。这两个基因编码的同源蛋白及其RNA在玉米中的存在已有报道,并且其DNA同源序列已利用荧光原位杂交定位在玉米相应的染色体上。利用免疫组织化学方法探测了与人类p53和c-myc基因同源的玉米基因在玉米颖果发育过程中的时空表达模式。结果发现,在授粉后的一定阶段,在反足细胞、珠被、未成熟的胚乳、予房壁、导管组织和糊粉层中,p53同源基因表达强烈,c-myc同源基因的表达相反,在授粉后的这些组织中基本不表达,而在授粉前的中央细胞的极核中表达水平较高。TUNEL检测显示,在p53同源基因呈现高水平表达的地方,DNA断裂信号强烈。在动物细胞中,p53和c-myc起相反的调节作用,这与其同源基因在玉米中的作用模式相似。由此说明p53和c-myc同源基因可能在玉米颖果发育PCD过程中起重要作用,并进一步推论高等植物PCD和动物细胞凋亡存在一定的保守性机制。     

Cloning and characterization of human homologue of Drosophila retinal degeneration B: A candidate gene for degenerative retinal diseases

Mutations in the Drosophila retinal degeneration B (D-rdgB) gene cause light-enhanced retinal degeneration. Here, we report the isolation of the cDNA encoding human homologue of the D-rdgB and initial characterization of the gene products. Like D-rdgB, the human rdgB homologue (H-rdgB) is a transmembrane protein with the N-terminus sharing high homology to two closely related cytosolic proteins, phosphatidylinositol transfer protein (PITP) α and β, indicating that rdgB like proteins belong to the family of PITP proteins. Using Northern and Western blotting, we demonstrated that the rdgB homologue is expressed in rat retina, olfactory bulb, and brain, but not in nonneuronal tissues. In the rat retina, immunoreactivity of the rdgB homologue was observed in photoreceptors and throughout the inner nuclear and plexiform layers; the strongest staining was in the inner plexiform layer. In the photoreceptor cells, the rdgB homologue was located primarily in the inner segment where sorting and traffic of membranes required for outer segment assembly take place. These data, together with recent findings showing PITPs as an important component of intracellular membrane traffic apparatus in mammalian cells, suggest that rdgB homologue may play a role in photoreceptor membrane renewal and in neurotransmitter release. Furthermore, using somatic hybrid cell hybridization and fluorescence in situ hybridization H-rdgB gene was mapped to human chromosome 11q13, a region known to contain several retinopathy loci, including Best disease and Bardet-Biedl syndrome I. Therefore, H-rdgB gene is an attractive candidate for several inherited retinal degenerative diseases. Dev. Genet. 20:235–245, 1997. © 1997 Wiley-Liss, Inc.     

Cloning and Characterization of the cDNA Encoding the Masquerade-like Serine Proteinase Homologue Gene of the Silkworm, Bombyx mori

ABSTRACT From Bombyx mori larvae, RT-PCR and cDNA library screening isolated masquerade-like serine proteinase homologue cDNA gene, proposed to be related to insect immunity and its characteristics were examined. The isolated gene is composed of 1.3 kb of nucleotide and 420 amino acid residues were encoded. According to the results of database search, the isolated gene showed high sequence homology with Holotrichia and Tenebrio's 45 kDa protein, Drosophila CG5390 gene. Moreover, it is composed of regulatory domain and catalytic domain, which is characteristic of serine proteinase that can be found in the insect immune reaction and embryonic development processes. Enzyme activation site by proteolytic cleavage and the sequence of three amino acids participate in the catalytic triad of enzyme and 14 cystein residues used in disulfide bridges are well conserved with the compared genes. The mRNA expression was increased following E. coli injection and constitutive expression was also observed before injection by Northern blot analysis.     

Isolation, Cloning, and Characterisation of a trp Homologue from Squid (Loligo forbesi) Photoreceptor Membranes

Abstract: The invertebrate phototransduction system is a valuable model of the ubiquitous inositol lipid signalling system. Taking advantage of the ability to obtain relatively large amounts of retinal material from the cephalopod eye, partial protein sequence data were obtained for a 92-kDa component isolated from a detergent-insensitive cytoskeletal fraction of a squid retinal microvillar membrane preparation. Degenerate oligonucleotides, designed on the basis of these sequence data, were used to isolate a full-length cDNA, encoding the 92-kDa component, using both cDNA library screening and 5'-rapid amplification of cDNA ends (5'-RACE) techniques. Comparison of the amino acid sequence encoded by this cDNA with entries in the OWL composite protein sequence database reveals greatest sequence similarity with the products of the Drosophila trp and trpl genes. Greatest variation from the Drosophila Trp protein is seen in the carboxyl-terminal region, which is considerably truncated in the squid protein and which accounts for most of the substantial difference in molecular weight seen between these proteins. This variation may be significant as the carboxyl-terminal domain has been shown to be in the regulation of several ligand-gated channels. The carboxyl-terminal domain has been expressed and shown to interact with calmodulin in a calcium-dependent fashion, thereby supporting this hypothesis. The likely occurrence of other homologues in a variety of systems suggests that this is a novel and important family of regulated ion channels involved in calcium signalling.