Human and mouse alpha-synuclein genes: comparative genomic sequence analysis and identification of a novel gene regulatory element.

The human alpha-synuclein gene (SNCA) encodes a presynaptic nerve terminal protein that was originally identified as a precursor of the non-beta-amyloid component of Alzheimer's disease plaques. More recently, mutations in SNCA have been identified in some cases of familial Parkinson's disease, presenting numerous new areas of investigation for this important disease. Molecular studies would benefit from detailed information about the long-range sequence context of SNCA. To that end, we have established the complete genomic sequence of the chromosomal regions containing the human and mouse alpha-synuclein genes, with the objective of using the resulting sequence information to identify conserved regions of biological importance through comparative sequence analysis. These efforts have yielded approximately 146 and approximately 119 kb of high-accuracy human and mouse genomic sequence, respectively, revealing the precise genetic architecture of the alpha-synuclein gene in both species. A simple repeat element upstream of SNCA/Snca has been identified and shown to be necessary for normal expression in transient transfection assays using a luciferase reporter construct. Together, these studies provide valuable data that should facilitate more detailed analysis of this medically important gene.

Alpha-synuclein immunoreactivity of huntingtin polyglutamine aggregates in striatum and cortex of Huntington's disease patients and transgenic mouse models.

Polyglutamine expansions in proteins are implicated in at least eight inherited neurodegenerative disorders, including Huntington's disease. These mutant proteins can form aggregates within the nucleus and processes of neurons possibly due to misfolding of the proteins. Polyglutamine aggregates are ubiquitinated and sequester molecular chaperone proteins and proteasome components. To investigate other protein components of polyglutamine aggregates, cerebral cortex and striata from patients with Huntington's disease and full-length cDNA transgenic mouse models for this disease were examined immunohistochemically for alpha-synuclein reactivity. Our findings demonstrate that alpha-synuclein can be used as a marker for huntingtin polyglutamine aggregates in both human and mice. Moreover in the HD transgenic mice, the intensity of immunoreactivity increases with age. The significance of recruitment of alpha-synuclein into huntingtin aggregates and its translocation away from the synapses remains to be determined. We propose that aberrant interaction of mutant huntingtin with other proteins, including alpha-synuclein, may influence disease progression.

The genexpress IMAGE knowledge base of the human muscle transcriptome: a resource of structural, functional, and positional candidate genes for muscle physiology and pathologies.

Sequence, gene mapping, and expression data corresponding to 910 genes transcribed in human skeletal muscle have been integrated to form the muscle module of the Genexpress IMAGE Knowledge Base. Based on cDNA array hybridization, a set of 14 transcripts preferentially or specifically expressed in muscle have been selected and characterized in more detail: Their pattern of expression was confirmed by Northern blot analysis; their structure was further characterized by full-insert cDNA sequencing and cDNA extension; the map location of the corresponding genes was refined by radiation hybrid mapping. Five of the 14 selected genes appear as interesting positional and functional candidate genes to study in relation with muscle physiology and/or specific orphan muscular pathologies. One example is discussed in more detail. The expression profiling data and the associated Genexpress Index2 entries for the 910 genes and the detailed characterization of the 14 selected transcripts are available from a dedicated Web server at. The database has been organized to provide the users with a working space where they can find curated, annotated, integrated data for their genes of interest. Different navigation routes to exploit the resource are discussed.

Genomic structure and localization of the human protein phosphatase 2A BRgamma regulatory subunit.

In the course of our analysis of genomic sequence from the human chromosome 4p16.1 region harboring both the Wolfram and Ellis van Creveld syndrome genes we have identified a sequence with high homology (98% at the amino acid level) to the rat cDNA coding for the protein phosphatase 2A BRgamma (PP2ABRgamma) regulatory subunit. Although the human cDNAs for both the BRalpha and BRbeta isoforms have been described previously, the BRgamma subunit has not yet been identified in humans. Here we describe the precise genomic organization and genetic localization of the human PP2ABRgamma gene.

Genomic distribution and gonadal mRNA expression of two human luteinizing hormone receptor exon 1 sequences in random populations.

Exon 1 of the human luteinizing hormone receptor (LHR) gene coding region exhibits at least two forms of sequence heterogeneity between 37 and 60 bp, spanning the junction of the signal peptide and the amino terminus of the mature protein. The LHR 1 differs from the LHR 2 by the insertion of 6 bp in exon 1 but is of identical sequence in the 5' flanking region. RFLP analysis of the two haplotypes within a random population of 63 individuals revealed allele frequencies of 0. 37 and 0.63 for LHR 1 and LHR 2, respectively. 94% of the samples contained at least one LHR 2 allele, whereas only 68% contained the LHR 1 allele. No gender differences were observed, and both homozygotes and heterozygotes displayed apparently normal reproduction. Reverse-transcriptase polymerase chain-reaction analyses of LHR mRNA from testes and ovaries revealed that both haplotypes are transcribed in normal individuals, with no difference in tissue specific distribution. Thus, at least two functional polymorphic forms of exon 1 coding region of the same LHR gene are present in a random human population.

Alpha synuclein is present in Lewy bodies in sporadic Parkinson's disease.

A missense mutation in the human alpha synuclein gene was recently identified in some cases of familial Parkinson's disease (FPD). We have developed an antibody that recognizes the C-terminal 12 amino acids of the human alpha synuclein protein and have demonstrated that alpha synuclein is an abundant component of the Lewy bodies found within the degenerating neurons of patients with Parkinson's disease (PD). The presence of alpha synuclein in Lewy bodies of sporadic PD patients suggests a central role for alpha synuclein in the pathogenesis of PD.

Genomic organization and expression of the human beta-synuclein gene (SNCB).

The beta-synuclein protein is highly homologous to the alpha-synuclein protein for which two mutations were reported in some familial cases of Parkinson disease. It has been shown that both alpha- and beta-synucleins may be able to inhibit phospholipase D2 selectively. We have observed that the beta-synuclein gene (HGMW-approved symbol, SNCB) is highly expressed in brain including the substantia nigra, the main region of neuronal degeneration in patients with Parkinson disease. We have determined the intron-exon structure of the beta-synuclein gene and established sequencing assays that will facilitate the search for mutations in the beta-synuclein gene in patients with Parkinson disease or other neurodegenerative disorders.

A physical map of 30,000 human genes.

A map of 30,181 human gene-based markers was assembled and integrated with the current genetic map by radiation hybrid mapping. The new gene map contains nearly twice as many genes as the previous release, includes most genes that encode proteins of known function, and is twofold to threefold more accurate than the previous version. A redesigned, more informative and functional World Wide Web site (www.ncbi.nlm.nih.gov/genemap) provides the mapping information and associated data and annotations. This resource constitutes an important infrastructure and tool for the study of complex genetic traits, the positional cloning of disease genes, the cross-referencing of mammalian genomes, and validated human transcribed sequences for large-scale studies of gene expression.

Identification, localization and characterization of the human gamma-synuclein gene.

We have identified and characterized a new member of the human synuclein gene family, gamma-synuclein (SNCG). This gene is composed of five exons, which encode a 127 amino acid protein that is highly homologous to alpha-synuclein, which is mutated in some Parkinson's disease families, and to beta-synuclein. The gamma-synuclein gene is localized to chromosome 10q23 and is principally expressed in the brain, particularly in the substantia nigra. We have determined its genomic sequence, and established conditions for sequence analysis of each of the exons. The gamma-synuclein gene, also known as BCSG1, was recently found to be overexpressed in advanced infiltrating carcinoma of the breast. Our survey of the EST database indicated that it might also be overexpressed in an ovarian tumor.

Contig map of the Parkinson's disease region on 4q21-q23.

We have constructed a yeast artificial chromosome contig (YAC) map of human chromosome 4q21-q23 across the Parkinson's disease region by combining molecular and fluorescence in situ hybridization techniques. This map contains 55 YACs and 51 molecular markers, including 23 polymorphic markers. We have also isolated one P1 and 33 bacterial artificial chromosomes located within this contig. Plasmid libraries were generated from 11 of these BAC and P1 clones, and 614 random plasmid clones were sequenced for a total of about 200 kb. This contig allowed us to precisely determine the location of 18 transcripts within the D4S2460-D4S2986 interval, including the alpha-synuclein gene found to be mutated in some families with Parkinson's disease.

Promoter sequence, expression, and fine chromosomal mapping of the human gene (MLP) encoding the MARCKS-like protein: identification of neighboring and linked polymorphic loci for MLP and MACS and use in the evaluation of human neural tube defects.

The MARCKS-like protein (MLP), also known as F52, MacMARCKS, or MARCKS-related protein, is a widely distributed substrate for protein kinase C (PKC). Recent studies using gene disruption in vivo have demonstrated the importance of both MARCKS and MLP to the development of the central nervous system; specifically, mice lacking either protein exhibit a high frequency of neural tube defects. We isolated a genomic clone for human MLP and discovered a directly linked polymorphism (MLP1) useful for genetic linkage analysis. The MLP promoter was 71% identical over 433 bp to that of the corresponding mouse gene, Mlp, with conservation of many putative transcription factor-binding sites; it was only 36% identical over 433 bp to the promoter of the human gene, MACS, which encodes the MLP homologue MARCKS. This 433-bp fragment drove expression of an MLP-beta-galactosidase transgene in a tissue-specific and developmental expression pattern that was similar to that observed for the endogenous gene, as shown by in situ hybridization histochemistry. In contrast to MACS, the MLP and Mlp promoters contain a TATA box approximately 40 bp 5' of the presumed transcription initiation site. MLP was localized to chromosome 1p34-->1pter by analysis of human-mouse somatic cell hybrid DNA and to 1p34 by fluorescence in situ hybridization. Radiation hybrid mapping of MLP placed it between genetic markers D1S511 (LOD > 3.0) and WI9232. MACS was localized to 6q21 between D6S266 (LOD > 3.0) and AFM268uh5 by the same technique. We tested the novel MLP1 polymorphism and the MACS flanking markers in a series of 43 Caucasian simplex families in which the affected child had a lumbosacral myelomeningocele. We found no evidence of linkage disequilibrium, suggesting that these loci were not major genes for spina bifida in these families. Nonetheless, the identification of linked and neighboring polymorphisms for MACS and MLP should permit similar genetic studies in other groups of patients with neural tube defects and other neurodevelopmental abnormalities.

Mutation in the alpha-synuclein gene identified in families with Parkinson's disease.

Parkinson's disease (PD) is a common neurodegenerative disorder with a lifetime incidence of approximately 2 percent. A pattern of familial aggregation has been documented for the disorder, and it was recently reported that a PD susceptibility gene in a large Italian kindred is located on the long arm of human chromosome 4. A mutation was identified in the alpha-synuclein gene, which codes for a presynaptic protein thought to be involved in neuronal plasticity, in the Italian kindred and in three unrelated families of Greek origin with autosomal dominant inheritance for the PD phenotype. This finding of a specific molecular alteration associated with PD will facilitate the detailed understanding of the pathophysiology of the disorder.

Isolation of chromosome-specific ESTs by microdissection-mediated cDNA capture.

Despite dramatic advances in the identification of human expressed sequence tags (ESTs), techniques that facilitate isolation of chromosome or chromosome band-specific ESTs would be of considerable value. This report demonstrates the feasibility of identifying chromosome-specific ESTs following microdissection of a single-copy chromosome region. For this study, a reduced complexity cDNA library was linkered and hybridized to normal human metaphase chromosomes. After stringency washes, the entire long arm of chromosome 6 (6q) was microdissected. Following PCR amplification using linker-specific primers, captured cDNAs were subcloned and 187 individual clones picked at random. These 187 clones were then sorted by filter cross-hybridization into 34 unique groups. Of these 34 groups, 19 (56%) mapped to chromosome 6 by Southern blot. We identified three previously known genes, human cytovillin (ezrin) mapped previously to 6q25-26, human cardiac gap junction protein (connexin 43) mapped previously to 6q21-23.2 and prolyloligopeptidase, which had not been mapped previously. BLASTN identified three clone groups with homology to known ESTs and 12 representing novel cDNA sequences. Six of the groups were sublocalized to specific band regions of 6q using a chromosome 6 hybrid mapping panel, five representative clones were tested on Northern analysis to verify their expression, and finally, nine clones were mapped against the Gene bridge 4 reduction hybrid panel to confirm their genetic map location on 6q. These results demonstrate that microdissection of single-copy sequences has sufficient specificity for isolation of chromosome-specific cDNAs.

Characterization of the human extracellular matrix protein 1 gene on chromosome 1q21.

Ecm1, the mouse gene encoding extracellular matrix protein 1, is highly expressed in bone and cartilage as well as in osteogenic, preosteoblastic and chondroblastic cell lines. Ecm1 was recently localized to a chromosomal region in mouse syntenic to human chromosome 1q21, establishing this gene as a prime candidate gene for pycnodysostosis, a rare, autosomal recessive sclerosing skeletal dysplasia. Shortly thereafter, it was determined that cathepsin K is the pycnodysostosis gene. We now report the radiation hybrid mapping of human ECM1 to 1q21, and the gene structure and coding sequence of human ECM1.

C2H2-546: a zinc finger protein differentially expressed in HTLV-1 infected T cells.

We report the cloning and characterization of a novel cDNA termed C2H2-546 which encodes a C2H2-type zinc finger protein. C2H2-546 RNA is expressed in the HTLV-1 infected T cells examined which were derived from HAM-TSP patients, but not in T cells derived from ATL patients. The C2H2-546 gene is conserved in humans and primates and maps to chromosome 10q11.2, a site associated with a variety of cancers. Thus, C2H2-546 is a candidate regulatory molecule important in the formation of these tumors, and may serve as an important marker to distinguish HTLV-1 infected ATL versus HAM-TSP T cell lineages.

Serine phosphorylation, chromosomal localization, and transforming growth factor-beta signal transduction by human bsp-1.

The transforming growth factor-beta (TGF-beta) superfamily regulates a multitude of cellular and developmental events. TGF-beta family ligands signal through transmembrane serine/threonine kinase receptors whose downstream effectors are largely unknown. Using genetic data from the fruit fly, we have identified a downstream effector of TGF-beta-induced signaling. TGF-beta signaling protein-1 (BSP-1) is rapidly phosphorylated in response to TGF-beta. Localization of bsp-1 to chromosome 4q28 suggests a role in carcinogenesis. These data suggest that BSP-1 is the prototype of a new class of signaling molecules.