The Insulin-Like Growth Factor-1 (IGF1) System as a Potential Biomarker for Nutritional Status and Growth Rate in Pacific Rockfish (SEBASTES SPP.)

Hack, Nicole L

01 March 2017

Growth performance in vertebrates is regulated by environmental factors including the quality and quantity of food, which influences growth via endocrine pathways such as the growth hormone (GH) / insulin-like growth factor somatotropic axis. In several teleost fishes, circulating concentrations of insulin-like growth factor-1 (Igf1) correlate positively with growth rate, and it has been proposed that plasma Igf1 levels may serve as an indicator of growth variation for fisheries and aquaculture applications. Here, I tested whether plasma Igf1 concentrations might serve as an indicator of somatic growth in olive rockfish (Sebastes serranoides), one species among dozens of rockfishes important to commercial and recreational fisheries in the Northern Pacific Ocean. I reared juvenile olive rockfish under food ration treatments of 1% or 4% wet mass per d for 98 d to experimentally generate variation in growth. Juvenile rockfish in the 4% ration grew 60% more quickly in mass and 22% faster in length than fish in 1% ration. Plasma Igf1 levels were elevated in rockfish under the 4% ration, and individual Igf1 levels correlated positively with growth rate, as well as with individual variation in hepatic igf1 mRNA levels. These data in olive rockfish support the possible use of plasma Igf1 as a positive indicator of growth rate variation in rockfishes. Using my findings from this experiment, I further investigated the use of this biomarker in wild rockfish by examining patterns of Igf1 variation in blue rockfish (Sebastes mystinus) caught within and outside of two Marine Protected Areas (MPAs) along California’s coast: Piedras Blancas MPA and Point Buchon MPA. Individual Igf1 levels correlated positively with increasing size as seen in laboratory reared fish. After correcting plasma Igf1 values for body size, circulating Igf1 was observed to be higher in blue rockfish within the boundaries of the Piedras Blancas MPA compared to fish from an adjacent site with no fishing restrictions. Igf1 levels in blue rockfish caught within the Point Buchon MPA, however, were similar to those outside of that MPA. These results suggest that blue rockfish within the Piedras Blancas MPA may experience enhanced growth relative to conspecifics outside of that MPA’s boundaries, and that such growth increases may be specific to MPA locations. My findings support previous studies that Igf1 is a positive indicator for growth in teleost fish and can be used as a tractable biomarker in wild rockfish which could enhance management efforts of fish stocks within marine protected areas.

fish

growth hormone

binding protein

IGF

somatomedin

nutrition

Endocrinology

Marine Biology

Growth Hormone Alters Components Related to Differentiation, Metabolism and Milk Synthesis and Secretion in MAC-T Cells

Johnson, Tasha Lynn

01 June 2010

The mammary alveolar cell-T (MAC-T) cell line is able to uniformly differentiate and secrete casein proteins in response to dexamethasone, insulin and prolactin and is extensively used to study bovine mammary epithelial cell function. Growth hormone (GH) has been shown to increase milk protein synthesis both in vivo and in mammary cell models, and induce cytoskeletal rearrangement in 3T3 fibroblast cell line and a Chinese hamster ovary (CHO) cell line. Few studies have focused on identifying the mechanisms involved in differentiated MAC-T cells’ response to GH. We tested the hypothesis that MAC-T cells would respond directly to GH and that the response would include alterations in milk protein gene expression, leading to a more appropriate model for mammary cell function than treatment with dexamethasone, insulin and prolactin alone. To identify mechanisms that are involved in MAC-T cells’ response to GH, global protein was assessed through two-dimensional gel electrophoresis and differentially expressed proteins were identified through mass spectrometry. Differentiated cells expressed GH receptor mRNA, and addition of GH to the differentiation medium increased production of α-S1 casein and α-lactalbumin mRNA. Proteins that were differentially expressed are related to metabolism, the cytoskeleton, protein folding, RNA and DNA processing, detoxifying and calcium metabolism. These results indicate that GH is an important factor in inducing a lactogenic phenotype in the MAC-T cell line, and supports GHs involvement in differentiation, while altering cell metabolism in preparation for synthesis and secretion of milk components.

MAC-T

Growth Hormone

Proteomics

Mammary epithelial cells

Differentiation

Biotechnology

Molecular Biology

Other Animal Sciences

The role of microRNAs, DNA methylation and translational control in regulation of sex specific gene expression in mouse liver

Hao, Pengying

09 October 2018

Sex differences are widespread in both mouse and human liver, and are associated with sex differences in drug metabolism and liver pathophysiology. The secretory patterns of growth hormone (GH) is one of the major drivers of liver sex specificity, where intermittent and continuous secretion in male and female respectively lead to sex bias in the expression of more than 1000 genes in mouse liver, via a complex interplay of GH-responsive transcription factors and epigenetic mechanisms. This thesis explores three themes of molecular control in the regulation of liver sex differences: microRNAs, DNA methylation, and translational control. Studies herein identified two microRNAs, miR-1948-5p and miR-802-5p, whose expression is sex biased and regulated by GH and the transcription factor STAT5b. Small RNA sequencing confirmed the sex specificity of these two microRNAs and identified an additional 18 sex-biased microRNAs. Computational and experimental characterization of miR-1948-5p and miR-802-5p confirmed their authenticity. In vivo inhibition of these microRNAs by locked nucleic acids indicated that miR-1948-5p and miR-802-5p played a functional role in repressing female-biased genes and male-biased genes, respectively. This thesis also investigated the impact of GH and STAT5b on liver DNA methylation profiles. Reduced representation bisulfite sequencing was performed on liver tissues from four mouse models that perturbed the GH and STAT5b axis. In the wildtype liver, sex biased demethylation was positively associated with sex biased chromatin opening and gene expression. Global hypermethylation was observed in livers of mice with lit/lit mutation resulting in GH deficiency or with hepatocyte-specific deletion of the STAT5ab locus. Strikingly, these hypermethylated loci were enriched for enhancer elements and STAT5b binding sites found in wild-type mouse liver. Hypophysectomy followed by GH replacement mouse models identified differentially methylated regions that were sex-biased and rapidly methylated and demethylated in response to GH stimulation. Finally, we used ribosome profiling to validate sex-biased protein translation and identify mechanisms of translational control. In sum, this body of work provides novel insights and broadens our understanding of the diverse molecular mechanisms underlying sexual dimorphism in the liver. / 2020-10-08T00:00:00Z

Molecular biology

DNA methylation

Growth hormone

Liver

Liver sexual dimorphism

MicroRNA

Ribosome profiling

Role of Endogenous Dopamine in Regulation of Anterior Pituitary Hormone Secretion During Early Postpartum and Various Stages of the Estrous Cycle in Holstein Cows

Ahmadzadeh, Amin

27 October 1998

The role of endogenous dopamine, utilizing a dopamine antagonist (fluphenazine; FLU), in modulation of gonadotropin, growth hormone (GH) and prolactin (PRL) secretion during the early postpartum period and various stages of the estrous cycle was investigated in Holstein cows. Experiment 1 was conducted in anovulatory early postpartum cows. Fluphenazine caused a decrease (P < .05) in mean serum LH concentration and LH pulse frequency. Likewise, FLU caused a (P < .05) decrease in mean GH concentration. These results suggest that endogenous dopamine, at least in part, is responsible for regulation of LH and GH secretion in anovulatory Holstein cows. Experiment 2 was conducted in cyclic lactating Holstein cows during the mid-luteal phase of the estrous cycle. Mean serum LH and FSH concentrations, pulse frequencies, and peak amplitudes did not change in response to FLU. FLU did not affect mean serum GH concentration. These results suggest that a dopamine-mediated mechanism for modulation of gonadotropin and GH secretion is absent or perhaps overridden by high progesterone concentration during the luteal phase of the estrous cycle in lactating dairy cows. Experiment 3 was conducted during the early follicular phase of the estrous cycle in Holstein cows. During the follicular phase, FLU caused a decrease (P < .05) in mean serum LH concentration and LH pulse frequency. However, FLU had no effect on mean serum FSH concentration or pulse frequency. Further, FLU increased (P < .05) GH concentrations during the follicular phase. Experiment 4 was conducted during the early metestrus phase of the estrous cycle. During the metestrus phase, FLU tended to decrease (P < .1) mean LH concentration and suppressed (P < .05) LH pulse frequency but had no effect on FSH secretion. Fluphenazine caused a transient increase (P < .05) in mean serum GH concentration. The results of the third and fourth experiments suggest that, during the early follicular and metestrus phases of the estrous cycle, when progesterone concentration is low, modulation of LH and GH secretion, at least in part, is modulated by endogenous dopamine. However, a dopamine mediated mechanism for FSH secretion is absent during both phases of the estrous cycle in lactating Holstein cows. In all experiments FLU increased (P < .01) PRL secretion indicating that endogenous dopamine suppresses PRL secretion in cattle regardless of ovarian status. It is concluded that: 1) endogenous dopamine plays a stimulatory role in LH secretion during the anovulatory postpartum period and during the estrous cycle only when serum progesterone is low. 2) FLU decreased GH secretion in anovulatory postpartum Holstein cows but it increased GH secretion during the follicular and metestrus phases of the estrous cycle. However FLU had no effect on GH secretion during the luteal phase of the estrous cycle. Thus it appears that, modulation of GH secretion is dependent upon reproductive status and ovarian hormones secretion. / Ph. D.

follicle stimulating hormone

luteinizing hormone

dopamine antagonist

growth hormone

prolactin

cattle

The Effect of Post Exercise Nutrition on Anabolic Response to Resistance Exercise

Bird, Randy Lee

13 April 2005

Purpose: To determine the effect of four postexercise beverages, differing in macronutrient content, on metabolic response to an acute resistance exercise bout. Methods: Forty male subjects performed five sets of eight repetitions at 80% 1RM for leg press and leg extension, and then consumed one of four postexercise beverages (Placebo, PL: a carbohydrate-electrolyte beverage, CE; or one of two milk-based beverages, MILK 1: 1% chocolate milk; MILK 2: a high protein milk beverage). Indicators of muscle protein synthesis (MPS) were assessed before and 1-hr after consuming a postexercise beverage. Muscle protein degradation (MPD) was examined the day before and the day of exercise. Results: No significant differences were found among groups in MPS. The resistance exercise bout increased the amount of eIF4E-eIF4G by 4.5% 1-hr postexercise (p<0.05) without affecting the amount of eIF4E-4E-BP1. One hour after beverage consumption, serum total amino acid concentration increased for MILK 1 (p=0.003) and MILK 2 (p<0.001) but decreased for CE (p=0.028) and PL (p=0.276). Consumption of MILK 1, MILK 2, and CE significantly increased circulating levels of serum insulin (p<0.001). Serum growth hormone increased 3-fold as a result of the exercise bout but fell to baseline for all groups by 60 min (p<0.001). Conclusion: The resistance exercise bout was anabolic as shown by the increase in the active eIF4E-eIF4G complex and serum growth hormone. Consumption of MILK 2 led to the most optimal environment for muscle anabolism; however, none of the experimental beverages influenced the measured indicators of muscle protein translation 1-hr after ingestion. / Master of Science

Eukaryotic Initiation Factors

Insulin

Growth Hormone

3MH

Muscle Protein Degradation

Muscle Protein Synthesis

Carbohydrates

Protein

Milk

Analysis of the Relationship Between Growth Hormone Receptor Polymorphism rs6180 and Craniofacial Morphological Changes Associated with Herbst Appliance Therapy

Ellis, Lawrence Charles

January 2007

Indiana University-Purdue University Indianapolis (IUPUI) / Craniofacial growth results from both environmental and genetic factors over time. It would be exciting to isolate genetic factors that influence treatment responses from patients undergoing orthodontic treatment. Genetic genotyping and analysis of orthodontic patients is a new technologic advancement. The aim of this retrospective study is to examine the relationship of a specific single nucleotide polymorphism (SNP), rs6180, of the Growth Hormone Receptor (GHR) gene with various craniofacial length parameters in patients who have received Herbst appliance therapy as part of orthodontic treatment. An initial lateral cephalometric radiograph was taken along with two buccal cheek swabs. The cells obtained have undergone DNA isolation with the Puregene method in microcentrifuge tubes (Gentra Systems, Minneapolis, MN). Upon termination of functional appliance therapy (post-Herbst), a final lateral cephalometric radiograph was taken. To analyze the genetic polymorphism and determine genotype, polymerase chain reaction (PCR) and allelic discrimination were done using the 7000 Sequence Detection System (Applied Biosystems). Lateral cephalometric radiographs (initial, post-Herbst) of 25 patients were digitized and measured using the Dolphin Imaging program. Cephalometric measurements (S-N, S-A, Co-Go, Go-Gn, Ar-Gn, Go-Gn) were used to identify mandibular and craniofacial morphologic changes. Changes in Z-scores based on standards from the Michigan Growth Study were then converted to slow or normal growth status by slow being when the Z-score difference between the initial and final measurements is less than zero. The number of subjects with a slow versus normal growth status was compared to GHR polymorphism genotype. Statistical analysis of Hardy-Weinberg equilibrium and the changes in craniofacial length Z-scores in relation to a patient's genotype were performed using chi-square analysis. Results: The genotype frequencies were in Hardy-Weinberg equilibrium. Z-score differences for the S-A measurement was the only one found to be significant (p=0.005).

Activator Appliances

Orthodontic Appliances -- Therapy

Growth Hormone

Receptors, Somatotropin -- Genetics

Combination of calorie restriction mimetics improves health span in short-lived PEPCK bGH transgenic mice

Gautam, Anil

01 December 2023

Aging is the major risk factor for chronic age-related diseases characterized by loss of homeostasis, organ dysfunction, and inflammation. Calorie restriction (CR) has been shown to slow aging and delay the onset of chronic age-related diseases. Even though CR has many positive health effects, the degree and duration of the restriction needed would reduce the intervention's usefulness and make it challenging to start and maintain in humans. The difficulties brought on by CR have led to the development of CR mimetics that can mimic the effects of CR without reducing food intake (in an ad libitum state). We hypothesize that in PEPCK bovine Growth Hormone (bGH) overexpressing transgenic mice with accelerated metabolic and cognitive aging, the health span and phenotypes of aging can be improved by adding CR mimetics, a combination of lipoic acid, nicotinamide, thiamine, pyridoxine, and piperine to the diet. From 10 to 40 weeks of age, bGH-tg mice and their normal (N) littermates were fed CRM diet ad libitum. Normal littermates and bGH-tg mice fed a standard chow diet served as controls. Evaluation of the effects of CRM included insulin and glucose tolerance tests (ITT and GTT), indirect calorimetry as well as rotarod, working memory, grip strength testing. Body weight and percent fat mass were significantly lower, but percent lean mass was significantly higher in mice on a CRM diet at 40 weeks. At 19 weeks, insulin sensitivity was improved considerably in treated N and bGH-tg males. At 20 weeks of age, all mice on a CRM diet had significantly improved glucose tolerance and lower fasting glucose. At week 32, treated N female mice had significantly higher energy expenditure during the day and night per gram of body weight. In treated N males, this was true only during the day. Male bGH-tg mice on CRM diet had decreased energy expenditure during the night. Insulin sensitivity was significantly improved in treated male N and bGH-tg mice at week 37. Week 38 GTT showed enhanced glucose tolerance and lower fasting glucose in all mice on a CRM diet except Tg females. Week 39-40 Y-maze, rotarod and grip strength testing showed improved motor coordination and grip strength in all mice on CRM diet with no difference in working memory. Also, there was a significant improvement in metabolic and aging phenotype with lowered pro-inflammatory cytokines at the gene and protein levels in various tissues. Our study indicates the employed CRM produce the beneficial health effects in short-lived, insulin resistant bGH Tg mice but the effects are time-, sex-, genotype-, and diet-dependent. Most of the effects of this intervention resemble the effects of CR suggesting that employed compounds may act via similar mechanisms. This work was funded by the SIU-SOM Geriatrics Research Initiative (AB), NIA R01AG068288, and the Hillblom Foundation (PK).

aging

calorie restriction

growth hormone

health span

mimetics

PEPCK Tg mice

Effects of GHRKO Visceral Fat Transplant on Insulin Signaling

Bennis, Mohammed

01 May 2015

Insulin sensitivity has been positively correlated with a healthy and extended lifespan, while insulin resistance, decreased insulin sensitivity, has been linked to aging and is the main indicative of type 2 diabetes. Growth Hormone Receptor/ Binding Protein Knockout mice (GHRKO), although obese, are characterized by high insulin sensitivity and a prolonged lifespan. Due to the absence of growth hormone receptors (GHR), growth hormone (GH) is unable to activate its downstream pathway. Interestingly, the secretory activity of visceral fat in GHRKO mice is altered stimulating insulin sensitivity. In this study, we transplanted normal (N) mice with GHRKO visceral fat pads to determine the role of visceral fat developed with the absence of GH signaling on the insulin-signaling pathway in animals with physiologically normal GH action. We found that the visceral fat transplant (VFT) helped the normal mice gain the beneficial effects of fat developed in the absence of GH and caused improvement of their whole body insulin sensitivity when comparing with sham-operated mice and with mice that received visceral fat from N animals. In presented study, RT-PCR was used to determine the levels of hepatic mRNA expression between three experimental groups including Normal-sham mice (N-S), normal mice transplanted with visceral fat from normal animals (N-N), and normal mice receiving visceral fat from GHRKO mice (N-KO). Additionally, Western Blot and ELISA were used to determine the level of total and phosphorylated proteins. By studying the effect of visceral fat transplant from GHRKO or N mice on the whole body insulin signaling in N male mice, and testing different genes expression and proteins quantification, we can shed light on the mechanism by which white adipose tissue (WAT) regulates whole body insulin sensitivity and longevity as well as understanding the role of WATs in development of diabetes and the process behind insulin resistance.

Medicine and Health Sciences

Determination of CIS-acting signals that control alternative splicing of bovine growth hormone pre-mRNA

Dirksen, Wessel Peter

January 1995

No description available.

Biology, Molecular

Alternative splicing

CIS-acting signals

Growth hormone pre-mRNA

Acylation state determines the action of ghrelin on energy and glucose metabolism

Heppner, Kristy M.

January 2013

No description available.

Neurology

ghrelin

ghrelin O-acyltransferase

growth hormone secretagogue receptor

metabolism

fatty acid

obesity