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Dennis B. Lubahn

Bio: Dennis B. Lubahn is an academic researcher from University of Missouri. The author has contributed to research in topics: Estrogen receptor & Estrogen receptor alpha. The author has an hindex of 79, co-authored 200 publications receiving 28809 citations. Previous affiliations of Dennis B. Lubahn include Mayo Clinic & University of Missouri System.


Papers
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Journal ArticleDOI
04 Jul 1991-Nature
TL;DR: It is concluded that enlargement of the CAG repeat in the androgen receptor gene is probably the cause of X-LINKED spinal and bulbar muscular atrophy.
Abstract: X-linked spinal and bulbar muscular atrophy (Kennedy's disease) is an adult-onset form of motorneuron disease which may be associated with signs of androgen insensitivity. We have now investigated whether the androgen receptor gene on the proximal long arm of the X chromosome is a candidate gene for this disease. In patient samples we found androgen receptor gene mutations with increased size of a polymorphic tandem CAG repeat in the coding region. These amplified repeats were absolutely associated with the disease, being present in 35 unrelated patients and none of 75 controls. They segregated with the disease in 15 families, with no recombination in 61 meioses (the maximum log likelihood ratio (lod score) is 13.2 at a recombination rate of 0). The association is unlikely to be due to linkage disequilibrium, because 11 different disease alleles were observed. We conclude that enlargement of the CAG repeat in the androgen receptor gene is probably the cause of this disorder.

2,704 citations

Journal ArticleDOI
TL;DR: Disruption of the estrogen receptor in humans need not be lethal and is important for bone maturation and mineralization in men as well as women.
Abstract: Background and Methods Mutations in the estrogen-receptor gene have been thought to be lethal. A 28-year-old man whose estrogen resistance was caused by a disruptive mutation in the estrogen-receptor gene underwent studies of pituitary-gonadal function and bone density and received transdermal estrogen for six months. Estrogen-receptor DNA, extracted from lymphocytes, was evaluated by analysis of single-strand-conformation polymorphisms and by direct sequencing. Results The patient was tall (204 cm [80.3 in.]) and had incomplete epiphyseal closure, with a history of continued linear growth into adulthood despite otherwise normal pubertal development. He was normally masculinized and had bilateral axillary acanthosis nigricans. Serum estradiol and estrone concentrations were elevated, and serum testosterone concentrations were normal. Serum follicle-stimulating hormone and luteinizing hormone concentrations were increased. Glucose tolerance was impaired, and hyperinsulinemia was present. The bone mineral d...

2,443 citations

Journal ArticleDOI
TL;DR: Prenatal male and female reproductive tract development can occur in the absence of estradiol receptor-mediated responsiveness, and the uteri and vagina do not respond in the animals with the estrogen receptor gene disruption.
Abstract: Estrogen receptor and its ligand, estradiol, have long been thought to be essential for survival, fertility, and female sexual differentiation and development. Consistent with this proposed crucial role, no human estrogen receptor gene mutations are known, unlike the androgen receptor, where many loss of function mutations have been found. We have generated mutant mice lacking responsiveness to estradiol by disrupting the estrogen receptor gene by gene targeting. Both male and female animals survive to adulthood with normal gross external phenotypes. Females are infertile; males have a decreased fertility. Females have hypoplastic uteri and hyperemic ovaries with no detectable corpora lutea. In adult wild-type and heterozygous females, 3-day estradiol treatment at 40 micrograms/kg stimulates a 3- to 4-fold increase in uterine wet weight and alters vaginal cornification, but the uteri and vagina do not respond in the animals with the estrogen receptor gene disruption. Prenatal male and female reproductive tract development can therefore occur in the absence of estradiol receptor-mediated responsiveness.

1,859 citations

Journal ArticleDOI
TL;DR: Evidence is found that estrogen/ERα signaling is critical in female and male WAT; obesity in αERKO males involves a mechanism of reduced energy expenditure rather than increased energy intake.
Abstract: Estrogen regulates the amount of white adipose tissue (WAT) in females, but its role in males and whether WAT effects involve estrogen receptor-α (ERα) or ERβ were unclear. We analyzed the role of ERα in WAT and brown adipose tissue by comparing these tissues in wild-type (WT) and ERα-knockout (αERKO) male and female mice. Brown adipose tissue weight was similar in αERKO and WT males at all ages. Progressive increases in WAT were seen in αERKO males with advancing age. Epididymal, perirenal, and inguinal WAT weighed 139–185% more in αERKO than in WT males by 270–360 days of age. Epididymal and perirenal adipocyte size was increased 20% in αERKO males. Adipocyte number was 82–168% greater in fat pads of αERKO vs. WT males. Compared with WT, 90-day-old αERKO females had increases in fat pad weights (54–103%), adipocyte size, and number. Both αERKO males and females had insulin resistance and impaired glucose tolerance, similar to humans lacking ERα or aromatase. Energy intake was equal in WT and αERKO males, indicating that obesity was not induced by hyperphagia. In contrast, energy expenditure was reduced by 11% in αERKO compared with WT males, indicating that altered energy expenditure may be important for the observed obesity. In summary, ERα absence causes adipocyte hyperplasia and hypertrophy, insulin resistance, and glucose intolerance in both sexes. These results are evidence that estrogen/ERα signaling is critical in female and male WAT; obesity in αERKO males involves a mechanism of reduced energy expenditure rather than increased energy intake.

1,154 citations

Journal ArticleDOI
15 Apr 1988-Science
TL;DR: The deduced amino acid sequence of AR within the DNA-binding domain has highest sequence identity with the progesterone receptor.
Abstract: The androgen receptor (AR) mediates the actions of male sex steroids. Human AR genomic DNA was cloned from a flow-sorted human X chromosome library by using a consensus nucleotide sequence from the DNA-binding domain of the family of nuclear receptors. The AR gene was localized on the human X chromosome between the centromere and q13. Cloned complementary DNA, selected with an AR-specific oligonucleotide probe, was expressed in monkey kidney (COS) cells and yielded a high-affinity androgen-binding protein with steroid-binding specificity corresponding to that of native AR. A predominant messenger RNA species of 9.6 kilobases was identified in human, rat, and mouse tissues known to contain AR and was undetectable in tissues lacking AR androgen-binding activity, including kidney and liver from androgen-insensitive mice. The deduced amino acid sequence of AR within the DNA-binding domain has highest sequence identity with the progesterone receptor.

976 citations


Cited by
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Journal ArticleDOI
26 Mar 1993-Cell
TL;DR: In this article, the authors used haplotype analysis of linkage disequilibrium to spotlight a small segment of 4p16.3 as the likely location of the defect, which is expanded and unstable on HD chromosomes.

7,224 citations

Journal Article
25 Mar 1993-Cell
TL;DR: The Huntington's disease mutation involves an unstable DNA segment, similar to those described in fragile X syndrome, spino-bulbar muscular atrophy, and myotonic dystrophy, acting in the context of a novel 4p16.3 gene to produce a dominant phenotype.

6,992 citations

Journal ArticleDOI
TL;DR: A new algorithm for finding tandem repeats which works without the need to specify either the pattern or pattern size is presented and its ability to detect tandem repeats that have undergone extensive mutational change is demonstrated.
Abstract: A tandem repeat in DNA is two or more contiguous, approximate copies of a pattern of nucleotides. Tandem repeats have been shown to cause human disease, may play a variety of regulatory and evolutionary roles and are important laboratory and analytic tools. Extensive knowledge about pattern size, copy number, mutational history, etc. for tandem repeats has been limited by the inability to easily detect them in genomic sequence data. In this paper, we present a new algorithm for finding tandem repeats which works without the need to specify either the pattern or pattern size. We model tandem repeats by percent identity and frequency of indels between adjacent pattern copies and use statistically based recognition criteria. We demonstrate the algorithm’s speed and its ability to detect tandem repeats that have undergone extensive mutational change by analyzing four sequences: the human frataxin gene, the human β T cell receptor locus sequence and two yeast chromosomes. These sequences range in size from 3 kb up to 700 kb. A World Wide Web server interface at c3.biomath.mssm.edu/trf.html has been established for automated use of the program.

6,577 citations

Journal ArticleDOI
TL;DR: The development of brown adipose tissue with its characteristic protein, uncoupling protein-1 (UCP1), was probably determinative for the evolutionary success of mammals, as its thermogenesis enhances neonatal survival and allows for active life even in cold surroundings.
Abstract: Cannon, Barbara, and Jan Nedergaard. Brown Adipose Tissue: Function and Physiological Significance. Physiol Rev 84: 277–359, 2004; 10.1152/physrev.00015.2003.—The function of brown adipose tissue i...

5,470 citations