Kathleen Link scite author profile

The augmentation of GH secretion that occurs during puberty has been attributed to changes in sex steroid levels that enhance the frequency and amplitude of GH pulses. To investigate the specific GH pulse characteristics responsible for such augmentation we analyzed the serum GH concentration profiles of 10 boys in Tanner stages I-II of sexual development (group A; aged 10 5/12-15 1/12 yr) and compared their GH pulse characteristics with those of 5 boys at Tanner stages IV-V of development (group B; aged 14 8/12-15 1/12 yr). We also reanalyzed previously reported data from 5 prepubertal boys (group C; aged 13 6/12-15 5/12 yr) before and after 10 weeks of treatment with testosterone enanthate (100 mg/4 weeks, im). Using a pulse detection algorithm that constrains the false positive pulse detection rate to less than 5% (Cluster), we found that group B boys had a significantly higher mean serum GH pulse amplitude compared to group A boys (17.1 +/- 2.6 vs. 8.6 +/- 1.7 ng/mL; P = 0.012), but both groups had the same mean GH pulse frequency (group B, 5.4 +/- 0.5 pulses/24 h vs. group A, 5.5 +/- 0.4 pulses/24 h; P greater than 0.05). Similar changes were found in group C boys before and after testosterone therapy; there was no significant change in GH pulse frequency (6.6 +/- 0.9 before vs. 7.6 +/- 0.5 pulses/24 h after treatment; P greater than 0.05), but there was a significant increase in the GH pulse amplitude after therapy (6.8 +/- 1.6 before vs. 15.4 +/- 2.4 ng/mL after treatment; P = 0.04). When the 24-h GH concentration profiles were analyzed using a mathematically distinct method for the estimation of pulse amplitudes, namely the Fourier expansion time series, we confirmed a significant increase in GH pulse amplitude with later stages of puberty and androgen treatment. We conclude that the augmentation in GH secretion that occurs during either spontaneous puberty or exogenous testosterone therapy is an amplitude-modulated phenomenon, relatively independent of changes in pulse frequency. Such an effect may be secondary to the action of sex steroid hormones modulating either the responsivity of somatotrophs to endogenous GH-releasing hormone, the amount of GH-releasing hormone secreted, or the tonic inhibitory tone of somatostatin.

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The Effect of Androgens on the Pulsatile Release and the Twenty-Four-Hour Mean Concentration of Growth Hormone in Peripubertal Males*

Link¹,

Blizzard²,

Evans³

et al. 1986

The Journal of Clinical Endocrinology & Metabolism

192

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Oxandrolone (Ox) and testosterone (T) are used as growth-promoting agents in the therapy of boys with constitutional delay of growth and adolescence. Although the mechanism of action of these androgens is not known, it is recognized that T enhances GH release during GH stimulation tests. We studied the effects of T and Ox on the mean concentration of GH, the pattern of GH secretion, and somatomedin-C (SmC) concentrations in boys with short stature and/or delayed sexual development to determine whether their growth-promoting effects might be mediated through endogenous GH release. Ten boys received Ox (0.1 mg/kg . day, orally) for 65 +/- 5 days (mean +/- SD), and five boys received T propionate (7.5 mg, im, for 7 days), followed by T enanthate (100 mg, im, monthly for 3 months). Serum GH was measured in samples obtained at 20-min intervals for 24 h before and 65 +/- 5 days (mean +/- SD) after the initiation of therapy. SmC levels were measured twice during the same 24-h period before and 65 +/- 5 days (mean +/- SD) after initiation of therapy. In the boys treated with T, there were significant increases in the mean concentration of GH (mean increase, 4.3-fold; range, 2-12), in the number of GH pulses 10 ng/ml or greater [1.6 +/- 2.0 vs. 4.8 +/- 1.5/24 h (mean +/- SD)], and in the SmC levels [0.82 +/- 0.46 vs. 2.3 +/- 0.4 mu/ml (mean +/- SD)]. There were, however, no significant changes in the boys treated with Ox. Both Ox and T significantly improved the growth rates; however, T increased the growth rate by 0.95 +/- 0.24 (mean +/- SD) cm/months, and Ox increased the growth rate by 0.24 +/- 0.26 (mean +/- SD) cm/month. These results indicate that T, but not Ox, at the doses tested increases GH secretion in boys with short stature and/or delayed sexual development. This increase in GH secretion may contribute to the increased growth rate in males at puberty.

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Testosterone and Oxandrolone, a Nonaromatizable Androgen, Specifically Amplify the Mass and Rate of Growth Hormone (GH) Secreted per Burst without Altering GH Secretory Burst Duration or Frequency or the GH Half-Life*

Ulloa‐Aguirre

Blizzard

Garcia-Rubi

et al. 1990

The Journal of Clinical Endocrinology & Metabolism

124

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We investigated the mechanisms by which androgens increase mean circulating GH concentrations in boys. We tested two hypotheses: 1) testosterone increases serum GH concentrations at least in part via an androgen receptor-mediated mechanism, rather than exclusively by way of aromatization to estrogen; 2) androgen augments one or more specific features to GH secretion (secretory burst number, amplitude, and/or duration) and/or prolongs the half-life of GH removal. To examine these hypotheses, prepubertal boys with constitutionally delayed development and/or growth were given injections of testosterone (100 mg monthly; n = 7) or treated with oral oxandrolone, a nonaromatizable androgen (1.25 mg twice daily; n = 5). Pulsatile GH release was studied before and during androgen administration by sampling blood at 20-min intervals for 24 h. The immunoreactive GH time series were subjected to a novel deconvolution technique, which revealed that 1) testosterone and oxandrolone each increased mean (24-h) serum GH concentrations significantly; 2) both androgens augmented the daily endogenous GH secretory rate significantly; 3) increased GH production resulted from a higher mass of GH secreted per burst and a higher maximal rate of GH secretion within each burst; and 4) androgens amplified the magnitude of the nyctohemeral rhythm in the mass (but not frequency) of GH secretory pulses. The observed effects of androgen were specific, since the number and duration of GH secretory bursts and the subject-specific GH half-life were unaltered by androgen treatment. We conclude that androgen acting apart from conversion to estrogen is capable of specifically activating the somatotropic axis via distinct neuroendocrine secretory mechanisms.

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Diagnosis of an imprinted‐gene syndrome by a novel bioinformatics analysis of whole‐genome sequences from a family trio

Bodian

Solomon

Khromykh

et al. 2014

Molec Gen & Gen Med

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Whole-genome sequencing and whole-exome sequencing are becoming more widely applied in clinical medicine to help diagnose rare genetic diseases. Identification of the underlying causative mutations by genome-wide sequencing is greatly facilitated by concurrent analysis of multiple family members, most often the mother–father–proband trio, using bioinformatics pipelines that filter genetic variants by mode of inheritance. However, current pipelines are limited to Mendelian inheritance patterns and do not specifically address disorders caused by mutations in imprinted genes, such as forms of Angelman syndrome and Beckwith–Wiedemann syndrome. Using publicly available tools, we implemented a genetic inheritance search mode to identify imprinted-gene mutations. Application of this search mode to whole-genome sequences from a family trio led to a diagnosis for a proband for whom extensive clinical testing and Mendelian inheritance-based sequence analysis were nondiagnostic. The condition in this patient, IMAGe syndrome, is likely caused by the heterozygous mutation c.832A>G (p.Lys278Glu) in the imprinted gene CDKN1C. The genotypes and disease status of six members of the family are consistent with maternal expression of the gene, and allele-biased expression was confirmed by RNA-Seq for the heterozygotes. This analysis demonstrates that an imprinted-gene search mode is a valuable addition to genome sequence analysis pipelines for identifying disease-causative variants.

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Kathleen Link

Augmentation of Growth Hormone Secretion during Puberty: Evidence for a Pulse Amplitude-Modulated Phenomenon*

The Effect of Androgens on the Pulsatile Release and the Twenty-Four-Hour Mean Concentration of Growth Hormone in Peripubertal Males*

Testosterone and Oxandrolone, a Nonaromatizable Androgen, Specifically Amplify the Mass and Rate of Growth Hormone (GH) Secreted per Burst without Altering GH Secretory Burst Duration or Frequency or the GH Half-Life*

Diagnosis of an imprinted‐gene syndrome by a novel bioinformatics analysis of whole‐genome sequences from a family trio

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