Douglas Hill scite author profile

The Duchenne muscular dystrophy (DMD) gene has been localized to chromosome Xp21 and codes for a 14-kilobase (kb) transcript and a protein called dystrophin, of relative molecular mass 427,000. Dystrophin is associated with the cytoplasmic face of muscle fibre membranes and its C-terminal domain is thought to mediate membrane attachment. Although N-terminal and central domain structures share common features with other cytoskeletal components, no significant sequence similarity between the C-terminal region of dystrophin and other previously characterized proteins has been described. Here we report that fragments from the C-terminal domain of the DMD complementary DNA detect a closely related sequence which exhibits nucleic-acid and predicted amino-acid identities with dystrophin of approximately 65 and 80%, respectively. The dystrophin-related sequence identifies a 13-kb transcript in human fetal muscle and maps to chromosome 6. Thus, dystrophin may be a member of a family of functionally related large structural proteins in muscle.

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Substance Use Disorder in Hospitalized Severely Mentally Ill Psychiatric Patients: Prevalence, Correlates, and Subgroups

Mueser

Yarnold

Rosenberg

et al. 2000

Schizophrenia Bulletin

245

119

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The prevalence and demographic and clinical correlates of lifetime substance use disorders were examined in a cohort of 325 recently hospitalized psychiatric patients (53% schizophrenia or schizoaffective disorder). Alcohol use was the most common type of substance use disorder, followed by cannabis and cocaine use. Univariate analyses indicated that gender (male), age (younger), education (less), history of time in jail, conduct disorder symptoms, and antisocial personality disorder symptoms were predictive of substance use disorders. Lifetime cannabis use disorder was uniquely predicted by marital status (never married) and fewer psychiatric hospitalizations during the previous 6 months. Optimal classification tree analysis, an exploratory, nonlinear method of identifying patient subgroups, was successful in predicting 74 percent to 86 percent of the alcohol, cannabis, and cocaine use disorders. The implications of this method for identifying specific patient subgroups and service needs are discussed.

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Neuregulins Signaling via a Glial erbB-2–erbB-4 Receptor Complex Contribute to the Neuroendocrine Control of Mammalian Sexual Development

et al. 1999

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Activation of erbB-1 receptors by glial TGFalpha has been shown to be a component of the developmental program by which the neuroendocrine brain controls mammalian sexual development. The participation of other members of the erbB family may be required, however, for full signaling capacity. Here, we show that activation of astrocytic erbB-2/erbB-4 receptors plays a significant role in the process by which the hypothalamus controls the advent of mammalian sexual maturation. Hypothalamic astrocytes express both the erbB-2 and erbB-4 genes, but no erbB-3, and respond to neuregulins (NRGs) by releasing prostaglandin E(2) (PGE(2)), which acts on neurosecretory neurons to stimulate secretion of luteinizing hormone-releasing hormone (LHRH), the neuropeptide controlling sexual development. The actions of TGFalpha and NRGs in glia are synergistic and involve recruitment of erbB-2 as a coreceptor, via erbB-1 and erbB-4, respectively. Hypothalamic expression of both erbB-2 and erbB-4 increases first in a gonad-independent manner before the onset of puberty, and then, at the time of puberty, in a sex steroid-dependent manner. Disruption of erbB-2 synthesis in hypothalamic astrocytes by treatment with an antisense oligodeoxynucleotide inhibited the astrocytic response to NRGs and, to a lesser extent, that to TGFalpha and blocked the erbB-dependent, glia-mediated, stimulation of LHRH release. Intracerebral administration of the oligodeoxynucleotide to developing animals delayed the initiation of puberty. Thus, activation of the erbB-2-erbB-4 receptor complex appears to be a critical component of the signaling process by which astrocytes facilitate the acquisition of female reproductive capacity in mammals.

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Involvement of transforming growth factor alpha in the release of luteinizing hormone-releasing hormone from the developing female hypothalamus.

Ojeda

Urbanski

Costa

et al. 1990

Proc. Natl. Acad. Sci. U.S.A.

157

121

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Little is known about the presence of trophic factors in the hypothalamus and the role they may play in regulating the functional development of hypothalamic neurons. We have investigated the ability of epidermal growth factor (EGF) and transforming growth factor a (TGF-a) to affect the release of luteinizing hormone-releasing hormone (LHRH), the neuropeptide that controls reproductive development. We have also determined whether the genes encoding EGF and TGF-a are expressed in the prepubertal female hypothalamus. Northern blot analysis of poly(A)+ RNA utilizing a single-stranded EGF cDNA probe failed to reveal the presence of EGF mRNA in either the hypothalamus or the cerebral cortex at any age studied (fetal day 18 to postnatal day 36). In contrast, both a complementary RNA probe and a double-stranded TGF-a cDNA recognized in these regions a 4.5-kilobase (kb) mRNA species identical to TGF-a mRNA. The abundance of TGF-a mRNA was 3-4 times greater in the hypothalamus than in the cerebral cortex. Both EGF and TGF-a (2-100 ng/ml) elicited a dose-related increase in LHRH release from the median eminence ofjuvenile rats in vitro. They also enhanced prostaglandin E2 (PGE2) release. The transforming growth factors TGF-fi, and -P2 were ineffective. Only a high dose of basic fibroblast growth factor was able to increase LHRH and PGE2 release. Blockade of the EGF receptor transduction mechanism with RG 50864, a selective inhibitor of EGF receptor tyrosine kinase activity, prevented the effect of both EGF and TGF-a on LHRH and PGE2 release but failed to inhibit the stimulatory effect of PGE2 on LHRH release. Inhibition of prostaglandin synthesis abolished the effect of TGF-et on LHRH, indicating that PGE2 mediates TGF-ainduced LHRH release. The results indicate that the effect of EGF and TGF-a on LHRH release is mediated by the EGF/TGF-a receptor and suggest that TGF-a rather than EGF may be the physiological ligand for this interaction. Since in the central nervous system most EGF/TGF-a receptors are located on glial cells, the results also raise the possibility that-at the median eminence-TGF-a action may involve a glial-neuronal interaction, a mechanism by which the trophic factor first stimulates PGE2 release from glial cells, and then PGE2 elicits LHRH from the neuronal terminals.

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TTF-1, a Homeodomain Gene Required for Diencephalic Morphogenesis, Is Postnatally Expressed in the Neuroendocrine Brain in a Developmentally Regulated and Cell-Specific Fashion

Lee

Cho

Norgren

et al. 2001

Molecular and Cellular Neuroscience

118

103

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Douglas Hill

An autosomal transcript in skeletal muscle with homology to dystrophin

Substance Use Disorder in Hospitalized Severely Mentally Ill Psychiatric Patients: Prevalence, Correlates, and Subgroups

Neuregulins Signaling via a Glial erbB-2–erbB-4 Receptor Complex Contribute to the Neuroendocrine Control of Mammalian Sexual Development

Involvement of transforming growth factor alpha in the release of luteinizing hormone-releasing hormone from the developing female hypothalamus.

TTF-1, a Homeodomain Gene Required for Diencephalic Morphogenesis, Is Postnatally Expressed in the Neuroendocrine Brain in a Developmentally Regulated and Cell-Specific Fashion

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