Showing papers by "John W. Belmont published in 2001"

Enzyme-replacement therapy in mucopolysaccharidosis I.

Abstract: Background Mucopolysaccharidosis I is a lysosomal storage disease caused by a deficiency of the enzyme α-L-iduronidase. We evaluated the effect of enzyme-replacement therapy with recombinant human α-L-iduronidase in patients with this disorder. Methods We treated 10 patients with mucopolysaccharidosis I (age, 5 to 22 years) with recombinant human α-L-iduronidase at a dose of 125,000 U per kilogram of body weight given intravenously once weekly for 52 weeks. The patients were evaluated at base line and at 6, 12, 26, and 52 weeks by detailed clinical examinations, magnetic resonance imaging of the abdomen and brain, echocardiography, range-of-motion measurements, polysomnography, clinical laboratory evaluations, measurements of leukocyte α-L-iduronidase activity, and urinary glycosaminoglycan excretion. Results Hepatosplenomegaly decreased significantly in all patients, and the size of the liver was normal for body weight and age in eight patients by 26 weeks. The rate of growth in height and weight had inc...

Supravalvular aortic stenosis: genetic and molecular dissection of a complex mutation in the elastin gene.

Abstract: We have identified two elastin gene (ELN) mutations located in cis in two related families with supravalvular aortic stenosis (SVAS). These mutations included an in-frame duplication in exon 18 (1034–1057dup) and a single base substitution in exon 26 (1829G→A) predicted to result in the amino acid substitution R610Q. Haplotype analysis in one of the families identified an individual with a recombination between exon 18 and 26 of the elastin gene. This individual was unaffected and carried the exon 18 insertion mutation but not 1829G→A. Skin fibroblasts were established from this recombinant normal individual and from an affected individual carrying both of the mutations. Reverse transcription/polymerase chain reaction (RT-PCR) analysis indicated that the expression of the mutant allele was reduced to 12%–27% of the normal allele in the affected but not in the unaffected individual. RNA-blot hybridization and immunoprecipitation experiments revealed reduced steady-state elastin mRNA levels and tropoelastin synthesis in the affected individual. RT-PCR analysis of the mRNA rescued by cycloheximide treatment indicated that mutation 1829G→A created a cryptic donor splice site within exon 26, resulting in the deletion of four nucleotides at the 3'-end of exon 26 and a frameshift in the mRNA. This frameshift mutation generated a premature termination codon in the domain encoded by exon 28, clearly resulting in nonsense-mediated decay (NMD) of this frameshift RNA product. Despite considerable variability in the molecular nature of mutations responsible for SVAS, the unifying mechanism appears to be the generation of null alleles by NMD leading to elastin haploinsufficiency.

Cell cycle-dependent expression and nucleolar localization of hCAP-H.

Abstract: Condensin is a conserved 13S heteropentamer composed of two nonidentical structural maintenance of chromosome (SMC) family proteins, in Xenopus XCAP-C and XCAP-E, and three regulatory subunits, XCAP-D2, XCAP-G, and XCAP-H. Both biochemical and genetic analyses have demonstrated an essential role for the 13S condensin complex in mitotic chromosome condensation. Further, a potential requirement for condensin in completion of chromatid arm separation in early anaphase is demonstrated by the mutational phenotypes of the Drosophila homologues of XCAP-H, barren and XCAP-C, DmSMC4. In this study we have investigated the expression and subcellular distribution of hCAP-H, the human homolog of XCAP-H, in order to better understand its cellular functions. Transcription of hCAP-H was restricted to proliferating cells with highest expression during the G2 phase of the cell cycle. In contrast, cellular hCAP-H protein levels were constant throughout the cell cycle. hCAP-H was found to be associated with mitotic chromosomes exhibiting a nonuniform but symmetric distribution along sister chromatids. The symmetry of hCAP-H association with sister chromatids suggests that there are sequence-dependent domains of condensin aggregation. During interphase hCAP-H, -C, and -E, have distinct punctate nucleolar localization, suggesting that condensin may associate with and modulate the conformation and function of rDNA. hCAP-H association with condensed chromatin was not observed in the early phase of chromosome condensation when histone H3 phosphorylation has already taken place. This finding is consistent with the hypothesis that histone H3 phosphorylation precedes condensin-mediated condensation.

BCR gene expression blocks Bcr-Abl induced pathogenicity in a mouse model.

Abstract: It is well accepted that the Bcr-Abl oncoprotein encoded by the Philadelphia chromosome is responsible for causing chronic myelogenous leukemia (CML). We have previously demonstrated that expression of Bcr interferes with the oncogenic effects of Bcr-Abl. To examine the effects of increased Bcr expression on Bcr-Abl oncogenic effects in a more physiological system, we tested the leukemogenic potential of a clone of K562 cells (K6 K562) containing an inducible BCR gene in NOD/scid mice. In this clone, the BCR gene was placed under the control of a tetracycline (Tet) repression system with a cytomegalovirus (CMV) promoter. Induction of exogenous Bcr protein by removal of Tet from the culture medium caused a dramatic increase in Bcr serine kinase activity, yielding predominantly phosphoserine Bcr, despite the presence of Bcr-Abl in the kinase reaction mixture. Prior to induction, the endogenous Bcr was predominantly in the phosphotyrosine form because of phosphorylation by Bcr-Abl, which we previously have shown suppresses Bcr serine/threonine kinase activity. Injection of K6 K562 cells into NOD/scid mice under conditions where BCR expression was suppressed resulted in death or terminal illness in 100% of the mice within 35 days after injection. These mice had a severe wasting syndrome characterized by atrophy of bone marrow hematopoiesis, and/or neoplasia of liver, bone marrow and spleen. Neoplastic spleens from these mice usually contained b3a2 Bcr-Abl transcripts. In contrast, induction of BCR expression at the time of injection allowed 80% survival; these healthy mice had no detectable microscopic lesions in blood forming organs. This difference in survival was significant with P<0.0001. Of interest, mice that were fed Tet for 19 days to initiate the disease syndrome and then released from the BCR transcriptional block had a significantly better survival pattern than mice exposed to Tet throughout the entire period. Moreover, 30% of these mice (three mice) survived through day 50. We conclude from these findings that BCR gene expression strongly inhibits the oncogenic effects of Bcr-Abl in NOD/scid mice, yielding healthy mice in most cases.