Monoamine oxidase activity decreased in cells lacking hypoxanthine phosphoribosyltransferase activity.

The Lesch-Nyhan syndrome in humans is characterized by lack of hypoxanthine phosphoribosyltransferase activity and neurologic abnormalities that suggest changes in catecholamine metabolism. Monoamine oxidase, which degrades biogenic amines, has decreased activity in noradrenergic murine neuroblastoma cell lines lacking hypoxanthine phosphoribosyltransferase activity and in skin fibroblasts from patients with the Lesch-Nyhan syndrome.

Polymorphism of the human c-abl gene: relation to incidence and course of chronic myelogenous leukemia.

Abnormalities in structure and expression of the proto-oncogene c-abl have been implicated in the genesis of chronic myelogenous leukemia (CML). We studied leukemic cell DNA from 42 CML patients for evidence of rearrangement and/or amplification of c-abl analogous to that described in the CML cell line K562. Using the enzymes Bgl II, Pst I, Xba I, seven patients demonstrated an atypical Southern blot pattern similar to that found in K562. Analysis of DNA from normal controls and skin fibroblast from one of the seven patients established that the atypical blot pattern was due to a restriction fragment length polymorphism rather than a gene rearrangement. Further analysis revealed that c-abl exists as two alleles, A and B, yielding three genotypes: AA, AB and BB. Inheritance was Mendelian. With respect to allele A, allele B contains a deletion of about 1 kb lying in a intronic region in close proximity to highly repetitive Alu sequences and the sequence coding for phosphotyrosine of the c-abl protein. K562 and the seven patients with similar Southern patterns were identified as AB heterozygotes. In K562, only the A allele was amplified. The frequencies of AA and AB genotypes in 37 Caucasian CML patients were 81.1% and 18.9% and in 57 unrelated normal Caucasian controls 87.7% and 12.3%, not significantly different. The BB genotype was identified in less than 1% of Caucasians. Of note, five AB patients who developed a terminal blast crisis demonstrated a 4:1 lymphoid:myeloid crisis ratio in contrast to a 2:7 lymphoid:myeloid crisis ration in nine AA patients and a similar ratio in mixed AA and AB historical controls. Otherwise, CML patients with AA and AB genotypes manifested similar clinical parameters. No patients demonstrated amplification of c-abl and analysis of four AB patients for loss of one c-abl allele during the course of their disease was negative. Thus, amplification of c-abl and loss of one c-abl allele are both infrequent in CML and do not play a significant role in the course of the disease.

Rearrangement of the retinoic acid receptor gene in acute promyelocytic leukemia.

The retinoic acid receptor-alpha (RAR-alpha) gene was previously localized to chromosome 17q21, a region close to the t(15;17) (q22;q21) abnormality in acute promyelocytic leukemia (APL). We used the RAR-alpha gene as a probe and found that eight of nine APL patient samples with t(15;17) (q22;q21) showed rearranged bands. A tenth APL patient was diploid and demonstrated no rearrangement. One patient who had rearrangement as an acute leukemia did not have rearrangement in remission. The results obtained from intron/exon mapping of the RAR-alpha gene demonstrated that breakpoints of seven of the eight patients occurred within intron 1. Northern blot analysis of leukemic samples indicated the expression of two RAR-alpha mRNA of 2.7 and 3.7 kb. However, two additional mRNA of 4.1 and 3.2 kb were found in an APL patient. We conclude that the RAR-alpha gene is directly involved in the t(15;17) translocation in APL and may transcribe aberrant messages.

Linkage relationships of human arginine vasopressin-neurophysin-II and oxytocin-neurophysin-I to prodynorphin and other loci on chromosome 20.

The structural genes for human prepro-arginine-vasopressin-neurophysin II (prepro-AVP-NPII; ARVP) locus and prepro-oxytocin-neurophysin-I (prepro-OT-NPI; OT) locus are closely linked separated by only 12 kilobasepairs of DNA. These two loci have been assigned to chromosome 20 by previous studies of somatic cell hybrids. We used Southern blots to analyze a restriction fragment length polymorphism detected by a probe for prepro-OT-NPI to determine the linkage relationships for the ARVP/OT loci using samples from the Centre d'Etude du Polymorphisme Humain (Paris, France) collection of families. The ARVP/OT loci demonstrated extremely close linkage with the prodynorphin (PDYN) locus, with no recombinants (theta of 0) and a log10 odds score of 5.2. Previous observations have shown the ARVP and PDYN peptides to be coexcreted in the same neurosecretory granules of some pituitary axons and that increased transcription of both genes occurs with osmotic stimulation. The combined ARVP/PT/PDYN group was also found to demonstrate linkage with other anonymous DNA segments on chromosome 20, including D20S4, D20S5, and D20S6. Using multilocus linkage analysis, the ARVP/OT loci map to the distal short arm of chromosome 20 about 15 centimorgans toward the telomere from the D20S5 locus, which is located near the middle of the short arm at 20p 12.21. These linkage relationships establish that the secretory and transcriptional associations of ARVP and PDYN extend to a close physical relationship in the human genome. Furthermore, the restriction fragment length polymorphism detected by these loci can serve as accurate markers in segregation studies of putative defects involving the OT, ARVP, or PDYN loci as well as provide a tool for studying the location of other genes, such as GH-releasing hormone.

No association between alcoholism and multiple polymorphisms at the dopamine D2 receptor gene (DRD2) in three distinct Taiwanese populations.

This study examined whether there is evidence for an association between alcoholism and the alleles of the TaqI A, TaqI B, and short tandem repeat polymorphisms (STRP), both individually and as haplotypes, at the dopamine D2 receptor gene (DRD2) in males of three populations from Taiwan. We studied 46 Chinese Han (21 alcoholics and 25 nonalcoholics), 42 Atayal (21 alcoholics and 21 nonalcoholics), and 40 Ami (20 alcoholics and 20 nonalcoholics). Alcoholism was diagnosed according to DSM-III-R criteria and all individuals in the alcoholic groups were severely affected. Significant linkage disequilibrium occurs for the three polymorphic sites in all three populations. No significant association was observed between any of the three polymorphisms at the DRD2 locus, tested individually and as haplotypes, and alcoholism in the three subject groups. We conclude that no association exists between genetic variation at the DRD2 locus and alcoholism in Chinese Han, Atayal, and Ami males.

Linkage study of a susceptibility locus for schizophrenia in the pseudoautosomal region.

Several lines of evidence suggest that the sex chromosomes have a role in the expression of schizophrenia. Gender differences in response to treatment, age at onset of illness, and prognosis indicate an influence of sex in differential expression of schizophrenia. On the basis of a higher-than-expected concordance for sex among siblings with schizophrenia, as well as the findings of cytogenetic abnormalities of the sex chromosomes in some schizophrenia patients, a pseudoautosomal location for a schizophrenia susceptibility locus has been proposed. To test this hypothesis, we investigated genetic linkage of the pseudoautosomal region to schizophrenia in a large Swedish kindred. Using pairwise analyses we tested eight markers spanning the most telomeric region to the boundary of the sex-specific region. In addition, we used multi-point analysis with five markers spanning the region to test for the presence of a schizophrenia susceptibility locus in the pseudoautosomal region. No evidence was found for linkage to schizophrenia under the given genetic model: "autosomal" dominant, f (penetrance) = 0.72, q (gene frequency) = 0.02, phenocopies = 0.001.

Monoamine oxidase type A in fibroblasts from patients with bipolar depressive illness.

No differences in levels of type A monoamine oxidase (MAO) were observed in cultured human skin fibroblasts from nine patients with bipolar depressive illness as compared to 18 age-, sex-, and race-matched controls. All cells were biopsied and cultured under parallel conditions. Fibroblasts from monozygotic twins (three sets) had levels of MAO activity that were highly concordant, indicating that levels measured in fibroblasts are genetically determined. Together these findings suggest that an inherited predisposition to bipolar depressive illness does not involve inherited variations in levels of type A MAO activity. Using a larger control population, a positive correlation was observed between age of donor and level of MAO activity. This finding demonstrates the need for age-matched control and patient groups when comparing levels of type A MAO in fibroblasts.

Analyses of cross species polymerase chain reaction products to infer the ancestral state of human polymorphisms.

In numerous population genetic and disease association studies decisions about the ancestry of polymorphic alleles are often made based on the relative frequency of the alleles in the extant populations with the most frequent allele being deemed as ancestral. However, the frequency of an allele in a population is generally not a perfect indicator of its ancestral status. A more accurate method to assess ancestral/derived status of polymorphic alleles involves identification of shared alleles between species. We used this strategy to examine genomic regions homologous to several human polymorphisms in four species of non-human primates. Cross species polymerase chain reaction (CS-PCR), with primers designed from human sequence, was used to investigate regions of interest. Nineteen polymorphisms at six loci (DRD2, HOXB@, PAH, D4S10, RBP3, and RET) were examined either by restriction fragment length analysis of PCR products (PCR-RFLP) or by direct sequencing. At seventeen of the eighteen PCR-RFLPs, non-human primates were monomorphic and identical to each other for either lack of restriction enzyme site or presence of the site. Thus, at these seventeen polymorphic sites the shared alleles are most likely to be the ancestral ones in humans. In several cases we have used sequence data to further demonstrate that the nucleotide at the site of the polymorphism is conserved between species confirming the hypothesis of a single ancestral allele. However, not all human alleles can be simply resolved into ancestral and derived; sequence data from one PCR-RFLP (in an intron of the PAH locus) and a single strand conformational polymorphism (SSCP) in the 3' untranslated region (UTR) of the DRD2 gene illustrate this point.

Phenylalanine hydroxylase in melanoma cells.

A pigmented subclone of Cloudman S91 melanoma cells, PS1-wild type, can grow in medium lacking tyrosine. This ability is conferred by phenylalanine hydroxylase activity, and not by tryptophan hydroxylase, tyrosine hydroxylase or tyrosinase activities, although the latter activity is also present in these cells. Conversion of phenylalanine to tyrosine was measured in living cells by chromatographic identification of the metabolites of [14C]phenylalanine and in cell extracts using a sensitive assay for phenylalanine hydroxylase. Phenylalanine hydroxylase activity in melanoma cell extracts was identified by its inhibition with p-chlorophenylalanine and not with 6-fluorotryptophan, 3-iodotyrosine, phenylthiourea, tyrosine or tryptophan; and by adsorption with antiserum prepared against purified rat liver phenylalanine hydroxylase, and migration of immunoprecipitable activity with authentic phenylalanine hydroxylase subunits in sodium dodecyl sulfate-polyacrylamide gel electrophoresis.

Effect of riboflavin on monoamine oxidase activity in cultured neuroblastoma cells.

Monoamine oxidase (MAO) depends on a covalently attached FAD cofactor for activity. Activity is depressed in mouse neuroblastoma cells (N1E-115) grown in synthetic N2 medium lacking riboflavin. MAO activity in depleted cells is stimulated by added riboflavin, and this recovery is blocked by inhibitors of RNA and protein synthesis, and not by an inhibitor of protein glycosylation Recovery from riboflavin depletion appears to depend upon new RNA and protein synthesis, and not on the addition of FAD cofactor to an inactive MAO precursor.

Status of the search for a major genetic locus for affective disorder in the Old Order Amish.

We have resumed the search for an autosomal linkage with affective disorder in the Old Order Amish and report the pairwise linkage results after screening 185 marked loci. No positive evidence of genetic linkage was found, and we estimate that roughly 23% of the autosomal genome has been excluded from linkage.

The locus for the medium-chain acyl-CoA dehydrogenase gene on chromosome 1 is highly polymorphic.

The gene for medium-chain acyl-CoA dehydrogenase (gene symbol ACADM; enzyme symbol MCAD) has been characterized for restriction fragment length polymorphisms (RFLPs) and mapped by linkage analysis to 4.2 cM from D1S2 and 11.7 cM from PGM1. The three RFLP systems described in detail show significant linkage disequilibrium but define four haplotypes with a PIC of 0.58. This makes ACADM informative for linkage mapping and for clinical genetic studies. By linkage studies, the orientation of these three loci relative to the centromere places ACADM most proximal. This is in direct conflict with the regional assignments of ACADM to 1p31 by in situ hybridization and of PGM1 to 1p22.1 by somatic cell studies. We suggest that this somatic cell localization of PGM1 may be incorrect.

The anonymous RFLP locus D1S2 is close to PGM1 on chromosome 1.

D1S2 was one of the first restriction fragment length polymorphisms (RFLPs) assigned to chromosome 1, but its regional location was unknown. In this paper we present data that place this RFLP into both the genetic map and the physical-cytogenetic map. Linkage data maps D1S2 7 cM from PGM1, which is localized to the middle of the short arm at 1p22.1. Southern blot analysis of DNA samples from somatic cell hybrids containing parts of chromosome 1 maps D1S2 proximal to 1p32 and distal to PGM1.

Tyrosine hydroxylase maps to the short arm of chromosome 11 proximal to the insulin and HRAS1 loci.

Tyrosine hydroxylase (TH) is the rate-limiting enzyme for catecholamine biosynthesis and a candidate gene for manic-depressive illness. The TH locus was typed for a BglII RFLP using a cDNA clone Ty7 in four large kindreds. Pairwise analyses and multipoint analyses were carried out to map the TH locus more precisely in the region of the linked markers: D11S12, INS, and HRAS1 on 11p. Results confirm the close linkage between TH with these previously mapped markers and support a most likely ordering which places TH on the side of INS where the centromere lies.

Gene for monoamine oxidase type A assigned to the human X chromosome.

Inherited variations in monoamine oxidase (MAO) activity are thought to affect human behavior and expression of disease. The present study has established the chromosomal location of one of the structural genes coding for this enzyme. Mapping was carried out by somatic cell hybridization between normal human skin fibroblasts and mouse neuroblastoma cells. Selective media for growth of cells with or without hypoxanthine phosphoribosyltransferase (HPRT) activity were used to obtain hybrid lines which had retained or lost the human X chromosome, respectively. Cytogenetic techniques, isozyme analysis, and limited proteolysis and peptide mapping of [3H]pargyline-labeled MAO were used to characterize hybrid lines. With one exception, only lines containing the human X chromosome and human forms of two X-linked enzymes (phosphoglycerate kinase and glucose-6-phosphate dehydrogenase) expressed the human form of the flavin polypeptide of type A MAO. The exceptional hybrid line contained a putative translocation of part of the human X chromosome, since it expressed human forms of both MAO and phosphoglycerate kinase but neither the human form of glucose-6-phosphate dehydrogenase nor HPRT activity. This evidence indicates that the structural gene for the flavin polypeptide of MAO-A is on the human X chromosome. This represents the first chromosomal assignment of a human gene coding for an enzyme of neurotransmitter metabolism. This information will help to elucidate the structure of MAO and modes of its inheritance in the human population.

Properties of monoamine oxidase in control and Lesch-Nyhan fibroblasts.

Monoamine oxidase activity of the A type was measured in homogenates of cultured human skin fibroblasts. Twenty-four control lines had activities ranging over fifty-fold with an apparent bimodal distribution. Activity in fibroblasts from 20 patients with the Lesch-Nyhan syndrome fell in the low portion of the normal distribution with a mean activity about 50% that of the control mean (p < 0.05). In a subgroup of control and Lesch-Nyhan lines with levels of enzyme activity from 0.9 to 179 pmol/min/mg protein, monoamine oxidase was similar with respect to apparent Km for tryptamine, thermal stability at 56 C, and sensitivity to clorgyline. Thus the lower mean levels of activity observed in the Lesch-Nyhan as compared to control fibroblasts were not associated with other altered properties of the enzyme. The bimodal distribution of enzyme activity suggests that a genetic polymorphism for monoamine oxidase may control levels of activity expressed in fibroblasts.

Extensive conjugation of dopamine (3,4-dihydroxyphenethylamine) metabolites in cultured human skin fibroblasts and rat hepatoma cells.

[G-3H]Dopamine (3,4-dihydroxyphenethylamine) metabolism in human skin fibroblasts and rat hepatoma cells in culture was determined by high-pressure liquid-chromatographic analysis of both cell extract and uptake medium. Conjugated metabolites were selectively hydrolysed by incubation with arylsulphatase or beta-glucuronidase before analysis. The principal metabolites of dopamine in fibroblast cells are 3-methoxytyramine 4-O-sulphate and 3-methoxytyramine. No significant differences, either in the amounts of these metabolites or in the amount of dopamine metabolism, were observed in fibroblasts from both normal and homocystinuric individuals. In rat hepatoma cells, the major metabolite of dopamine was 3-methoxytyramine 4- or 3-O-glucuronide; lower concentrations of dopamine 4- or 3-O-glucuronide, 4-hydroxy-3-methoxyphenylacetic acid, 3,4-dihydroxyphenylacetic acid and two unidentified glucuronide conjugates were also observed. Significant differences in the relative concentrations of these metabolites in cell and uptake medium were observed in both cell systems.

Progress toward resolving the possible linkage of multiple endocrine neoplasia type 2A to haptoglobin and group-specific loci: use of restriction fragment length polymorphisms extends exclusion region.

In an earlier paper, positive but nonsignificant lod scores were found in pair-wise linkage tests between multiple endocrine neoplasia type 2A (MEN-2A) and both the haptoglobin (HP) locus on chromosome 16 and group-specific component (GC) locus on chromosome 4. Recently discovered restriction fragment length polymorphisms for HP and for metallothionein 2 processed pseudogene 1 (MT2P1) near GC have made it possible to carry out a more powerful set of linkage tests with MEN-2A. This paper reports the results of such linkage analyses employing both pair-wise and multipoint tests. Close linkage of HP on chromosome 16 and MEN-2A is excluded. Linkage of MEN-2A on chromosome 4 with GC is excluded on the MT2P1 side of GC in a 7-centimorgan interval around MT2P1.