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Mutations at the mouse Fused locus have pleiotropic developmental effects, including the formation of axial duplications in homozygous embryos. The product of the Fused locus, Axin, displays similarities to RGS (Regulators of G-Protein Signaling) and Dishevelled proteins. Mutant Fused alleles that cause axial duplications disrupt the major mRNA, suggesting that Axin negatively regulates the response to an axis-inducing signal. Injection of Axin mRNA into Xenopus embryos inhibits dorsal axis formation by interfering with signaling through the Wnt pathway. Furthermore, ventral injection of an Axin mRNA lacking the RGS domain induces an ectopic axis, apparently through a dominant-negative mechanism. Thus, Axin is a novel inhibitor of Wnt signaling and regulates an early step in embryonic axis formation in mammals and amphibians. Show less

Multiple exostoses is a polygenic disease of bone formation and development characterized by the presence of cartilage-capped osseous projections emanating from the end of the long bones. Two members of a recently defined multigene family of proteins (EXT1 and 2) were shown to be involved in this disease. To investigate the evolutionary relatedness of EXT genes across species we isolated the mouse EXT2 cDNA. As in the human counterpart, the mouse EXT2 cDNA contains an open reading frame of 2154 bp encoding a predicted protein of 718 amino acids. The nucleic acid sequence is 87% identical to the human EXT2 transcript, resulting in an amino acid sequence which is 95% identical to the human protein. The mouse EXT2 gene also shows significant sequence similarity to the mouse and human EXT1 gene. Northern blot analysis shows that this gene is expressed in early stages of embryonic development, and in situ hybridizations suggest that EXT2 plays a role in limb development. The identification of the mouse EXT2 gene will allow functional analysis through insertional inactivation and reverse genetics in mice in order to better understand the formation of exostoses during bone formation. Show less

The autosomal recessive disorder Bardet-Biedl syndrome is characterised by retinal degeneration, polydactyly, obesity, mental retardation, hypogenitalism, renal dysplasia, and short stature. It is heterogeneous with at least four gene loci (BBS1-4) having been mapped to date. We have studied 18 multiply affected families noting the presence of both major and minor manifestations. Using a fluorescently based PCR technique, we genotyped each family member and assigned linkage to one of the four loci. Given this degree of heterogeneity we hoped to find phenotypic differences between linkage categories. We found 44% of families linked to 11q13 (BBS1) and 17% linked to 16q21 (BBS2). Only one family was linked to 15q22 (BBS4) and none to 3p12. We conclude that BBS1 is the major locus among white Bardet-Biedl patients and that BBS3 is extremely rare. Only subtle phenotypic differences were observed, the most striking of which was a finding of taller affected offspring compared with their parents in the BBS1 category. Affected subjects in the BBS2 and 4 groups were significantly shorter than their parents. Twenty eight percent of pedigrees did not show linkage to any known locus, evidence for at least a fifth gene. We conclude that the different genes responsible for Bardet-Biedl syndrome may influence growth characteristics such as height. Show less

The enzyme 17beta-hydroxysteroid dehydrogenase (17betaHSD) interconverts 17-ketosteroids and 17beta-hydroxysteroids. Five isoforms of the enzyme have been identified in the human, two of which (types 1 and 3) have been shown to catalyse the reduction reaction preferentially. The cDNA encoding mouse 17betaHSD type 3 was isolated from testis cDNA using the RACE technique and primers based on the human sequence. The mouse protein is 305 amino acids in length which is five short of the human protein with four of these amino acids missing at the N-terminus. The predicted amino acid sequence is 72.5% identical and 94.8% similar to the human sequence. Tissue distribution of mRNA encoding both types 1 and 3 17betaHSD was studied using reverse transcription and the polymerase chain reaction (RT-PCR). Highest levels of type 1 mRNA were found in the ovary whereas highest levels of type 3 were in the testis. All other tissues tested contained mRNA encoding both isoforms of the enzyme although levels were markedly lower than in the gonads. Show less

In yeast, commitment to cell division (Start) is catalyzed by activation of the Cdc28 protein kinase in late G1 phase by the Cln1, Cln2, and Cln3 G1 cyclins. The Clns are essential, rate-limiting activators of Start because cells lacking Cln function (referred to as cln-) arrest at Start and because CLN dosage modulates the timing of Start. At or shortly after Start, the development of B-type cyclin Clb-Cdc28 kinase activity and initiation of DNA replication requires the destruction of p40SIC1, a specific inhibitor of the Clb-Cdc28 kinases. I report here that cln cells are rendered viable by deletion of SIC1. Conversely, in cln1 cln2 cells, which have low CLN activity, modest increases in SIC1 gene dosage cause inviability. Deletion of SIC1 does not cause a general bypass of Start since (cln-)sic1 cells remain sensitive to mating pheromone-induced arrest. Far1, a pheromone-activated inhibitor of Cln-Cdc28 kinases, is dispensable for arrest of (cln-)sic1 cells by pheromone, implying the existence of an alternate Far1-independent arrest pathway. These observations define a pheromone-sensitive activity able to catalyze Start only in the absence of p40SIC1. The existence of this activity means that the B-type cyclin inhibitor p40SIC1 imposes the requirement for Cln function at Start. Show less

In an attempt to understand the molecular nature of Batten disease, we have examined the amino acid sequence of the affected CLN3 gene product (The International Batten Disease Consortium (1995) Cell 82, 949-957) and the site-specific mutations which give rise to the biological defect. Homology searches and molecular modeling have led to the development of a model for the folding and disposition of the protein, possibly within a mitochondrial membrane. High homology with a yeast protein of unknown function suggests a strong evolutionary conservation of function. We speculate that a possible role for the protein may be in chaperoning the folding/unfolding or assembly/ disassembly of other proteins, specifically subunit c of the mitochondrial ATP synthase complex. Show less

Hereditary multiple exostoses (EXT) is an autosomal dominant condition characterized by short stature and the development of bony protuberances at the ends of all the long bones. Three genetic locl have been identified by genetic linkage analysis at chromosomes 8q24.1, 11p11-13 and 19p. The EXT1 gene on chromosome 8 was recently identified and characterized. Here, we report the isolation and characterization of the EXT2 gene. This gene shows striking sequence similarity to the EXT1 gene, and we have identified a four base deletion segregating with the phenotype. Both EXT1 and EXT2 show significant homology with one additional expressed sequence tag, defining a new multigene family of proteins with potential tumour suppressor activity. Show less

Major advances in the molecular genetic analysis of the neuronal ceroid lipofuscinoses (NCL) have recently been made: the genes for two major types have been identified and the chromosomal location for a third defined. CLN1, the gene for infantile NCL (Santavuori-Haltia disease) encodes palmitoyl protein thioesterase (PPT). Most patients (75% of disease chromosomes) have the same point mutation. In contrast, CLN3, the gene for juvenile NCL (Batten or Spielmeyer-Vogt-Sjögren disease) is not a previously known gene, nor does its product display homology to any previously described proteins. The same 1 kb genomic deletion is present in the majority of patients (81% of disease chromosomes). CLN5, the gene for Finnish variant late infantile NCL, has been mapped to 13q and should be identified in the near future. The gene for late-infantile NCL (Jansky-Bielschowsky disease) has not yet been localized to a chromosome despite intensive research. It is likely that this type of NCL is caused by mutations in more than one gene each resulting in the same phenotype. Show less

In budding yeast, one of three G1 cyclins is required for progression though START, when cells commit to a further round of cell division. We have identified mutations in ALG1 (ERC14), a gene required for N-glycosylation, which are inviable in a cln1 cln2 background but are rescued by over-expression of CLNs. CLN1 and CLN2 are much more efficient than CLN3 in rescuing the erc14-1 allele. The erc14-1 allele results in a significant N-glycosylation defect, and no rescue of this defect by CLN1 over-expression was detected. These data suggest that CLN over-expression could be allowing cells to live with lower levels of N-glycosylation, possibly by overcoming a checkpoint sensitive to N-glycosylation capacity. A plasmid suppressor of alg1, PSA1, encodes a 361 amino-acid protein with homology to NDP-hexose pyrophosphorylases, the enzymes that catalyze the formation of activated sugar nucleotides. PSA1 is an essential gene, and PSA1 transcription is nearly co-ordinately regulated with CLN2 transcription, peaking near START. Co-ordinate regulation of glycosylation, sugar nucleotide metabolism, and cell-cycle progression through G1 may be a feature that ensures adequate cell-wall precursors are present before bud emergence. Show less

We report the sequence of a 15.5 kb DNA segment located near the left telomere of chromosome XV of Saccharomyces cerevisiae. The sequence contains nine open reading frames (ORFs) longer than 300 bp. Three of them are internal to other ones. One corresponds to the gene LGT3 that encodes a putative sugar transporter. Three adjacent ORFs were separated by two stop codons in frame. These ORFs presented homology with the gene CPS1 that encodes carboxypeptidase S. The stop codons were not found in the same sequence derived from another yeast strain. Two other ORFs without significant homology in databases were also found. One of them, O0420, is very rich in serine and threonine and presents a series of repeated or similar amino acid stretches along the sequence. Show less

We have studied a possible role of T cell sensitization to eye muscle antigens in patients with thyroid-associated ophthalmology (TAO). Peripheral blood mononuclear cell (PBMC) proliferation in response to crude porcine orbital tissue antigens, partially purified porcine eye muscle membrane proteins and predicted epitopic fragments of the recombinant 64 kDa protein 1D, was determined in patients with TAO and thyroid autoimmunity without eye disease. When membrane and cytosol fractions were used as antigen PBMC from 43% of patients with TAO but only 12.5% of normal subjects were responsive to a crude orbital connective tissue membrane fraction, although this difference was not significant. We were unable to demonstrate specific recognition of partially purified eye muscle membrane fractions; although most of the fractions tested were occasionally recognized by T cells from patients with ophthalmopathy, this was also the case for patients with autoimmune thyroid disease without ophthalmopathy and normal subjects. We did not clearly identify epitopic sequences within the 1D protein, most of the predicted peptides tested being recognized not only by T cells from a small proportion of patients with TAO, but also by those from some patients with autoimmune thyroid disease without ophthalmopathy and normal subjects. It is noteworthy however that approximately 22% of TAO patients, but no normal subjects, were positive to one or more of three peptides, suggesting that reactivity to the 1D protein may play a role in the pathogenesis of the eye disorder in some patients with TAO. The inconsistent and generally low T cell responses to crude and purified antigens noted in a few patients with TAO could be explained by low numbers of specifically sensitized lymphocytes in peripheral blood. Show less

Cultured cells derived from the wild mouse species Mus castaneus were found to be uniquely resistant to exogenous infection by polytropic mink cell focus-forming (MCF) murine leukemia viruses (MuLVs). This MCF MuLV resistance is inherited as a genetically recessive trait in the progeny of F1 crosses between M. castaneus and MCF MuLV-susceptible laboratory mice. Examination of the progeny of backcrosses demonstrated that susceptibility is inherited as a single gene which maps to chromosome 1. The map location of this gene places it at or near the locus Rmc1, the gene encoding the receptor for MCF/xenotropic MuLVs, suggesting that resistance is mediated by the M. castaneus allele of this receptor. Show less

The purpose of the study was to compare the susceptibility to respiratory morbidity in a cohort of 1129 9-years old children being exposed to congenital and postnatal environmental tobacco exposure with that of not exposed cohort. Results of the study provides strong evidence that older children who were exposed to ETS in their home environment were considerable more susceptible to acute respiratory tract illnesses than unexposed ones. As there was a dose-response relationship between degree of exposure (for lower ETS exposure OR = 1.32; for higher ETS exposure OR = 1.74) and excess rates of respiratory episodes this supports the existence of a causal explanation for the association observed. The significant trend of increased susceptibility in children to respiratory infections with the level of ETS exposure after exclusions of allergy and smoking in pregnancy suggests the existence of direct effect of ETS exposure on the child's respiratory health that is independent of atopy and in utero exposure to tobacco smoke products. Show less

We have recently cloned the gene responsible for the mouse neurological disorder dystonia musculorum. The predicted product of this gene, dystonin (Dst), is a neural isoform of bullous pemphigoid antigen 1 (Bpag1) with an N-terminal actin binding domain. Here we report on the cloning and characterization of mouse ACF7. Sequence analysis revealed extended homology of mACF7 with both the actin binding domain (ABD) and the Bpag1 portions of dystonin. Moreover, mACF7 and Dst display similar isoform diversity and encode similar sized transcripts in the nervous system. Phylogenetic analysis of mACF7 and dystonin ABD sequences suggests a recent evolutionary origin and that these proteins form a separate novel subfamily within the beta-spectrin superfamily of actin binding proteins. Given the implication of several actin binding proteins in genetic disorders, it is important to know the pattern of mACF7 expression. mACF7 transcripts are detected principally in lung, brain, spinal cord, skeletal and cardiac muscle, and skin. Intriguingly, mACF7 expression in lung is strongly induced just before birth and is restricted to type II alveolar cells. To determine whether spontaneous mutants that may be defective in mACF7 exist, we have mapped the mACF7 gene to mouse chromosome 4. Show less

Invins(10;11)(p12;q23q12) is one of the rare but recurring chromosome rearrangements seen in acute monoblastic leukemia. We cloned the proximal 10p breakpoint from one patient and showed that the MLL gene at 11q23 was fused to the 3' portion of AF10 at 10p12. In addition, we cloned the telomeric 10p junction and we found that the 5' portion of AF10 was juxtaposed to a previously unidentified gene at 11q12, which we call HEAB (a human homolog to a hypothetical Caenorhabditis elegans ATP/GTP-binding protein). These results indicate that the AF10 gene is split into a 5' AF10 and a 3' AF10 portion by the 11q23q12 chromosome segment and that both breakpoint junctions result in fusion transcripts of 5' AF10/HEAB and MLL/3' AF10. Only the MLL/3' AF10 fusion mRNA results in an in-frame fusion. Northern blot analysis of HEAB expression shows that a 2.0-kb major transcript is expressed ubiquitously in human tissues and is especially abundant in testis and skeletal muscle, whereas a 3.2-kb minor transcript is noted with the highest level of expression in thymus and peripheral blood leukocytes. The HEAB gene encodes a 425-amino acid protein that is rich in valine and leucine. HEAB protein shows high homology in its entire amino acid sequence to a putative C elegans protein and contains an adenosine triphosphate (ATP)/guanosine triphosphate (GTP)-binding motif that has homology to the ATP-binding transporter superfamily or to GTP-binding proteins. Our results could explain the high frequency of complex insertion and other rearrangement events that involve 10p12 and 11q12 and 11q23. The finding that different portions of a single gene are involved in fusions with two independent genes in the same leukemic cell is unique in the analysis of chromosome translocations. Show less

The genes AF10 and AF17 have been identified as the basis of the t(10;11) and t(11;17) translocations, events that result in their fusion to the MLL/HRX gene in acute myeloid leukaemias. AF10 and AF17 bear significant homology to each other within their putative zinc finger and leucine zipper domains, although they are diverged outside these regions. The BR140 gene encodes a 140 kDa protein of unknown function that contains a putative zinc finger domain, a leucine zipper region, and, in addition, a bromo domain. The zinc finger and leucine zipper domains of BR140 have significant homology to those of AF10 and AF17, suggesting that it belongs to this newly described gene family and, therefore, could be a target for chromosome translocation. To assess the potential involvement of BR140 in chromosome translocations in leukaemia, the chromosomal location of the BR140 gene has been determined by using several independent methods. A combination of Southern analysis, polymerase chain reactions (PCR) on monochromosomal cell hybrids, and fluorescence in situ hybridisation (FISH) has been used to show that the BR140 gene maps to chromosome band 3p25. Show less

The rat dilute-opisthotonus (dop) autosomal recessive gene, causing ataxia and coat color dilution, was mapped on chromosome 8 by PCR-amplified microsatellite markers. To facilitate the linkage analysis, an intersubspecific cross with a Japanese wild rat strain was used. The recombination frequencies were 12.8% between Apoc3 and dop, and 32.1% between dop and Mylc1v. The following order of three genes is proposed; Apoc3-dop-Mylc1v. This mutation appears to be homologous to dilute-lethal (d1) of the mouse in terms of clinical symptoms, coat color effect and chromosomal location of the gene loci. Key words: ataxic mutant rat, dilute-opisthotonus (dop), gene mapping. Show less

In budding yeast, cell division is initiated in late G1 phase once the Cdc28 cyclin-dependent kinase is activated by the G1 cyclins Cln1, Cln2, and Cln3. The extreme instability of the Cln proteins couples environmental signals, which regulate Cln synthesis, to cell division. We isolated Cdc53 as a Cln2-associated protein and show that Cdc53 is required for Cln2 instability and ubiquitination in vivo. The Cln2-Cdc53 interaction, Cln2 ubiquitination, and Cln2 instability all depend on phosphorylation of Cln2. Cdc53 also binds the E2 ubiquitin-conjugating enzyme, Cdc34. These findings suggest that Cdc53 is a component of a ubiquitin-protein ligase complex that targets phosphorylated G1 cyclins for degradation by the ubiquitin-proteasome pathway. Show less

Saccharomyces cerevisiae cells treated with the immunosuppressant rapamycin or depleted for the targets of rapamycin TOR1 and TOR2 arrest growth in the early G1 phase of the cell cycle. Loss of TOR function also causes an early inhibition of translation initiation and induces several other physiological changes characteristic of starved cells entering stationary phase (G0). A G1 cyclin mRNA whose translational control is altered by substitution of the UBI4 5' leader region (UBI4 is normally translated under starvation conditions) suppresses the rapamycin-induced G1 arrest and confers starvation sensitivity. These results suggest that the block in translation initiation is a direct consequence of loss of TOR function and the cause of the G1 arrest. We propose that the TORs, two related phosphatidylinositol kinase homologues, are part of a novel signaling pathway that activates eIF-4E-dependent protein synthesis and, thereby, G1 progression in response to nutrient availability. Such a pathway may constitute a checkpoint that prevents early G1 progression and growth in the absence of nutrients. Show less

Female gamete abortion in Indica-Japonica crosses of rice was earlier identified to be due to an allelic interaction at the S-5 locus on chromosome 6. Recently, in other crosses of rice, similar allelic interactions were found at loci designated as S-7 and S-8, located on chromosomes 7 and 6 respectively. All of them are independent of each other. At the S-5 locus, Indica and Japonica rice have S-5 (i) and S-5 (j) alleles respectively and Javanicas, such as Ketan Nangka, have a neutral allele S-5 (n) .The S-5 (i) /S-5 (j) genotype is semi-sterile due to partial abortion of female gametes carrying S-5 (j) , but both the S-5 (n) /S-5 (i) and S-5 (n) /S-5 (j) genotypes are fertile. The S-5 (n) allele is thus a "wide-compatibility gene" (WCG), and parents homozygous for this allele are called wide-compatible varieties (WCV). Such parents when crossed with Indica or Japonica varieties do not show F1 hybrid sterility. Wide-compatible parents have been used to overcome sterility barriers in crosses between Indica and Japonica rice. However, a Javanica variety, Ketan Nangka (WCV), showed typical hybrid sterility when crossed to the Indian varieties N22 and Jaya. Further, Dular, another WCV from India, showed typical hybrid sterility when crossed to an IRRI line, IR2061-628-1-6-4-3(IR2061-628). By genetic analyses using isozyme markers, a new locus causing hybrid sterility in crosses between Ketan Nangka and the Indicas was located near isozyme loci Est-1 and Mal-1 on chromosome 4, and was designated as S-9. Another new locus for hybrid sterility in the crosses between Dular and the IR2061-628 was identified and was found linked to four isozyme loci, Sdh-1, Pox-2, Acp-1 and Acp-2, on chromosome 12. It was designated as S-15. On the basis of allelic interactions causing female-gamete abortion, two alleles were found at S-9, S-9 (kn) in Ketan Nangka and S-9 (i) in N22 and Jaya. In the heterozygote, S-9 (kn) /S-9 (i) , which was semisterile, female gametes carrying S-9 (kn) were aborted. The hybrid of Dular and IR2061-628, with a genetic constitution of S-15 (Du) /S-15 (i) , was semi-sterile and the female gametes carrying S-15 (Du) were aborted. A Japonica tester variety, Akihikari, and an Indica variety, IR36, were found to have neutral alleles, S-9 nand S-15 n, at these loci, in addition to S-7 nand at S-7. The accumulation of three neutral alleles into a breeding line should help solve the hybrid sterility problem in wide crosses of rice. Show less

Gastric inhibitory polypeptide, originally isolated from porcine intestine, is a gastrointestinal hormone belonging to the vasoactive intestinal peptide (VIP)/glucagon/secretin family. GIP consists of 42 amino acid residues which is derived by proteolytic processing of a GIP precursor. In vivo and in vitro experiments have indicated that GIP auguments glucose-stimulated insulin secretion, suggesting that GIP plays an important role in the regulation of insulin secretion as an incretin. Thus, GIP now is generally referred to as glucose-dependent insulinotropic polypeptide. It is also suggested that GIP may be involved in the pathogenesis of non insulin-dependent diabetes mellitus (NIDDM). GIP exerts its biological actions by binding to its specific receptors, which appear to be coupled to G proteins. We have isolated a cDNA encoding a GIP receptor from a hamster insulinoma(HIT-T15) cDNA library. The hamster GIP receptor is a 462 amino acid protein having seven transmembrane segments. Expression of recombinant of hamster GIP receptors in Chinese hamster ovary (CHO) cells shows that it binds specifically to GIP with high affinity (IC50 = 9.6 nM) and is positively coupled to adenylate cyclase. RNA blot analysis reveals that a 3.8-kb GIP receptor mRNA is expressed at high levels in rat pancreatic islets as well as in HIT-T15 cells. Show less

The three budding yeast CLN genes appear to be functionally redundant for cell cycle Start: any single CLN gene is sufficient to promote Start, while the cln1 cln2 cln3 triple mutant is Start defective and inviable. Both quantitative and apparently qualitative differences between CLN genes have been reported, but available data do not in general allow distinction between qualitative functional differences as opposed to simply quantitative differences in expression or function. To determine if there are intrinsic qualitative differences between Cln proteins, we compared CLN2, CLN3, and crippled (but still partially active) CLN2 genes in a range of assays that differentiate genetically between CLN2 and CLN3. The results suggest that different potencies of Cln2, Cln3, and Cln2 mutants in functional assays cannot be accounted for by a simple quantitative model for their action, since Cln3 is at least as active as Cln2 and much more active than the Cln2 mutants in driving Swi4/Swi6 cell cycle box (SCB)-regulated transcription and cell cycle initiation in cln1 cln2 cln3 bck2 strains, but Cln3 has little or no activity in other assays in which Cln2 and the Cln2 mutants function. Differences in Cln protein abundance are unlikely to account for these results. Cln3-associated kinase is therefore likely to have an intrinsic in vivo substrate specificity distinct from that of Cln2-associated kinase, despite their functional redundancy. Consistent with the idea that Cln3 may be the primary transcriptional activator of CLN1, CLN2, and other genes, the activation of CLN2 transcription was found to be sensitive to the gene dosage of CLN3 but not to the gene dosage of CLN2. Show less

The occurrence and roles of cGMP were investigated in aleurone layers and protoplasts isolated from barley (cv Himalaya) grain. Levels of cGMP in freshly isolated barley aleurone layers ranged from 0.065 to 0.08 pmol/g fresh weight of tissue, and cGMP levels increased transiently after incubation in gibberellic acid (GA). Abscisic acid (ABA) did not increase cGMP levels in aleurone layers. LY 83583 (LY), an inhibitor of guanylyl cyclase, prevented the GA-induced increase in cGMP and inhibited GA-induced [alpha]-amylase synthesis and secretion. The inhibitory effects of LY could be overcome by membrane-permeant analogs of cGMP. LY also prevented GA-induced accumulation of [alpha]-amylase and GAMYB mRNAs. cGMP alone was not sufficient to induce the accumulation of [alpha]-amylase or GAMYB mRNA. LY had a less dramatic effect on the accumulation of mRNAs encoding the ABA-responsive gene Rab21. We conclude that cGMP plays an important role in GA, but not ABA, signaling in the barley aleurone cell. Show less

Hereditary multiple exostosis (EXT) is an autosomal dominant condition mainly characterized by the presence of multiple exostoses on the long bones. These exostoses are benign cartilaginous tumors (enchondromata). Three different EXT loci on chromosomes 8q (EXT1), 11p (EXT2) and 19p (EXT3) have been reported, and recently the EXT1 gene was identified by positional cloning. To isolate the EXT2 gene, we constructed a contig of yeast artificial chromosomes (YAC) and P1 clones covering the complete EXT2 candidate region on chromosome 11p11-p12. One of the transcribed sequences isolated from this region corresponds to a novel gene with homology to the EXT1 gene, and harbours inactivating mutations in different patients with hereditary multiple exostoses. This indicates that this gene is the EXT2 gene. EXT2 has an open reading frame encoding 718 amino acids with an overall homology of 30.9% with EXT1, suggesting that a family of related genes might be responsible for the development of EXT. Show less

A comparative assessment has been made regarding efficacy and safety of the double filtration plasmapheresis (DFPP), thermofiltration (TFPP), and low-density lipoprotein (LDL) adsorptive (PA) methods by making a crossover test on heterozygous familial hypercholesterolemia patients. Treatments by DFPP, TFPP (secondary membrane Evalux 5A), and PA (Liposorber LA-40) were carried out 5 times each, with a 2-week interval, in 5 patients with heterozygous familial hypercholesterolemia. The same plasma separator (Plasmacure PS-60, polysulfone) was used in all cases, and the volume of plasma processed was set at 4 L. High removal rates were obtained of total cholesterol, LDL cholesterol, triglycerides TG, and apolipoprotein B (apoB) by all three methods, and no differences were observed. Lipoprotein (a), apoA-2, apoC-3, fibrinogen, and immunoglobulin M (IgM) showed significantly high removal rates by the DFPP and TFPP methods compared with the PA method. The sieving coefficient of albumin and high-density lipoprotein (HDL) cholesterol at 2 and 4 L of plasma processed exhibited high permeabilities using all three methods. Supplementing albumin was not necessary. An increase of the transmembrane pressure was observed in 1 case treated by DFPP but was not observed when using the TFPP or PA method. No changes were observed in serum interleukin 1beta (IL-1beta) or tumor necrosis factor-alpha (TNF-alpha) before and after treatment by any of the three methods. No remarkable side effects were observed using either the DFPP or TFPP method. The DFPP and TFPP methods showed efficacy and safety that was not inferior to the PA method in conventional LDL apheresis, and the dead-end method of the filter operation without the discarding of plasma was shown to be possible. Show less

The role of second messenger pathways, cyclic AMP, calcium, and protein kinase C (PKC) in the transcriptional regulation of c-fos protooncogene expression in rat Sertoli cells was investigated. c-fos expression was monitored by Northern blot analysis. Although the action of FSH on Sertoli cells is considered to be mediated by cAMP, dibutyryl cAMP (dbcAMP), a potent membrane permeable analog of cAMP, induced much less c-fos mRNA expression than FSH ( < 50%) suggesting that additional cAMP-independent mechanisms may mediate the effect of FSH on c-fos. Specific intracellular inhibitors of PKC decreased c-fos induction in response to FSH by more than 50%. Ionomycin, which increases intracellular free calcium concentration, induced c-fos expression significantly. These data demonstrate that Sertoli cell c-fos mRNA expression is under multifactorial regulation by cAMP, calcium, and PKC. Show less

Sertoli cells cultured on basement membrane substrates differentiate morphologically into polarized cells and exhibit an enhanced responsiveness to FSH. The signal transduction mechanisms by which the extracellular matrix induces changes in the morphology and function of Sertoli cells are not known. Since calcium has been implicated in mediating changes in cytoskeletal assembly and organization, we investigated to see if basement membrane can modulate cytosolic free calcium concentrations during the process of adhesion and spreading of Sertoli cells. A direct quantification of the intracellular free cytosolic calcium concentration [Ca2+]i in freshly isolated immature rat Sertoli cells plated on laminin was performed by digital imaging microscopy using the fluorescent probe Fura-2 AM. [Ca2+]i levels rose by 1.5-2-fold within 1 h after plating on laminin, suggesting that calcium may be involved in adhesion and spreading of the cells on basement membrane. Furthermore, the possibility that matrix influences [Ca2+]i levels upon stimulation with FSH was examined by adding FSH directly to the cells spreading on laminin. A dramatic decrease in [Ca2+]i was observed compared to the level in untreated cells. Similarly, a significant decrease in [Ca2+]i in response to FSH was observed in cells already spread on laminin or Matrigel. Addition of dibutyryl cAMP did not significantly alter the basal calcium levels. Long-term exposure of Sertoli cells cultured on either laminin or Matrigel to FSH was studied by incubating the cells with 45CaCl2 in the presence or absence of FSH for 24 h. FSH induced a decrease or no change in 45Ca concentration in cells cultured on basement membrane. Addition of dibutyryl cAMP, instead of FSH, did not alter the basal 45Ca concentrations. In cells cultured on the peptides derived from laminin (RGD and SIKVAV), FSH increased the uptake of 45Ca significantly, whereas on YIGSR, also a laminin-derived peptide, it did not have any effect. Thus, basement membrane induces an early increase in [Ca2+]i in cultured Sertoli cells during spreading, and FSH appears to significantly decrease [Ca2+]i levels. Show less

The neuronal ceroid lipofuscinoses (NCL) are a relatively frequent group of progressive neurodegenerative disorders in children with similar, but not identical, clinical and morphological features, entailing different clinical groups, some of which have been found to represent different genetic entities, ie, infantile (INCL) or CLN1, late-infantile (LINCL) or CLN2, juvenile (JNCL) or CLN3, and a Finnish variant of LINCL or CLN5. Within the clinical pentad are included seizures, motor disturbances, visual impairment, dementia, and familial occurrence in an autosomal-recessive fashion. The ultrastructure of accruing lipopigments is diagnostically required to recognize an individual patient's NCL by showing granular lipopigments in INCL, curvilinear profiles (with or without fingerprint profiles) in LINCL and fingerprint profiles (with or without curvilinear profiles) in JNCL. Identification of genes for INCL and JNCL, together with electron microscopy in LINCL, allows safe prenatal diagnosis which is still impossible by biochemical techniques, unlike other lysosomal disorders. However, both cause and pathogenesis of the individual forms of NCL are still unknown, and therapy is gravely insufficient. Show less

In haploid Saccharomyces cerevisiae cells, mating pheromones activate a signal transduction pathway that leads to cell cycle arrest in the G1 phase and to transcription induction of genes that promote conjugation. To identify genes that link the signal transduction pathway and the cell cycle machinery, we developed a selection strategy to isolate yeast mutants specifically defective for G1 arrest. Several of these mutants identified previously known genes, including CLN3, FUS3, and FAR1. In addition, a new gene, FAR3, was identified and characterized. FAR3 encodes a novel protein of 204 amino acid residues that is dispensable for viability. Northern blot experiments indicated that FAR3 expression is constitutive with respect to cell type, pheromone treatment, and cell cycle position. As a first step toward elucidating the mechanism by which Far3 promotes pheromone-mediated G1 arrest, we performed genetic and molecular experiments to test the possibility that Far3 participates in one of the heretofore characterized mechanisms, namely Fus3/Far1-mediated inhibition of Cdc28-Cln kinase activity, G1 cyclin gene repression, and G1 cyclin protein turnover. Our data indicate that Far3 effects G1 arrest by a mechanism distinct from those previously known. Show less

We investigated the molecular basis for factor VII (FVII) deficiency in Israel and found that 13 patients were homozygous and 10 heterozygous for a C to T substitution at nucleotide 10648 of the FVII gene. This predicted an Ala244Val change and was associated with decreased FVII activity and antigen level. Of the 36 Ala244Val positive alleles, 20 were observed in patients of Moroccan origin, 10 in Iranian-Jewish patients and 6 in patients of other origins. A computer model of the serine protease domain of FVII suggested that the Ala244Val substitution may cause distortion of the entire protein structure. Intragenic polymorphic sites analyses disclosed a founder effect for the Moroccan and Iranian-Jewish patients. A survey of the Ala244Val mutation revealed an allele frequency of 1:42.5 in Moroccan Jews and 1:40 in Iranian Jews. As Moroccan Jews have been separated from Iranian Jews for more than two millennia, the data suggest that the Ala244Val mutation occurred in ancient times. Show less