Sleep deprivation and diet affect human GH gene expression in transgenic mice in vivo

Jarmasz, Jessica S.; Jin, Yan; Vakili, Hana; Cattini, Peter A.

doi:10.1530/ec-20-0354

Cited by 3 publications

(4 citation statements)

References 47 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Studies using these mice reveal that hGH production is impacted by the circadian rhythm via direct binding of circadian transcription factors at an enhancer motif in the hGH promoter locus. GH production is suppressed in these mice by acute sleep deprivation [137] and by HFD feeding only during the light (inactive) stage of daily cycle [138].…”

Section: Mt1-hgh Transgenic Micementioning

confidence: 99%

Mice with gene alterations in the GH and IGF family

et al. 2021

View full text Add to dashboard Cite

Section: Mt1-hgh Transgenic Micementioning

confidence: 99%

Mice with gene alterations in the GH and IGF family

et al. 2021

View full text Add to dashboard Cite

“…During non-REM sleep, blood supply increases to muscles, energy is restored, tissues grow and are repaired, and children release growth hormones. Therefore, sleep deprivation can impact growth 18,19…”

Section: Functions Of Sleepmentioning

confidence: 99%

“…Therefore, sleep deprivation can impact growth. 18,19 Inadequate sleep can result from a child' s environment or amphetaminebased medications prescribed for attention-deficit hyperactivity disorder (ADHD). 20 Paradoxically, children exhibiting signs and symptoms of sleep deprivation, such as an inability to concentrate, may be misdiagnosed with ADHD.…”

Section: Functions Of Sleepmentioning

confidence: 99%

Sleep

Venneman

2023

Nursing

View full text Add to dashboard Cite

show abstract

“…Previously, transgenic CD-1[mGH.hGH] mice with a single copy of the hGH gene locus in addition to the endogenous mGH gene were described [11, 27]. The transgene includes the hGH locus control region required for pituitary-specific expression in vivo and, as a result, these mice have been used to study the response of the hGH gene to hormone treatments [28, 29], diet [30], light/day cycle [31, 32] and sleep deprivation [33] in a physiological context. Here, we have removed the endogenous mGH gene from CD-1[mGH.hGH] mice by crossing it with the Ghtm1(KOMP)Vlcg mouse (UCDAVIS KOMP repository; also referred to as C57BL/6[Gh tm1Vlcg ] or GH −/− mouse [34]) to generate CD-1[ΔmGH.hGH] mice, which allow the effects of hGH, without mGH, to be assessed in vivo .…”

Section: Introductionmentioning

confidence: 99%

Increased capacity to maintain glucose homeostasis in a transgenic mouse expressing human but not mouse growth hormone with developing high fat diet-related insulin resistance, steatosis and adipose dysfunction

Jin,

Jarmasz,

Sultana

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

ObjectiveDifferences in primate and non-primate growth hormone (GH) genes can affect their regulation and function. This includes the ability of human (h) but not mouse (m) GH to bind the prolactin (PRL) receptor (PRLR) as well as the GH receptor (GHR). Potential differential effects were assessed in male hGH- or mGH-expressing mice and fed high fat diet (HFD)versusregular chow diet (RCD). Pancreas and epididymal white adipose tissue (eWAT) gene expression and/or related function were targeted as the pancreas responds to both PRLR and GHR signaling and catabolic effects like lipolytic activity are more directly attributable to GH and GHR signaling.DesignA transgenic CD-1 mouse expressing hGH but not mGH under hypothalamic control was generated to compare with wild type CD-1 mice and size and bone density determined. Glucose clearance, islet area, insulin and insulin-like growth factor (IGF) -2 gene expression were assessed as well as serum glucose and insulin levels in mice fed a HFDversusRCD for 8 and 24 weeks. Adiposity, liver and serum triglycerides as well as eWAT cell area, cytokine (leptin and adiponectin) and senescence-related marker (p21CIP1and p16INK4a) RNA levels were also assessed.ResultsMale hGH-expressing transgenic CD-1[ΔmGH.hGH] mice have significantly lower liver IGF-1 RNA levels and are smaller based on length and weight than wild type CD-1[mGH] mice. They also have ∼1.5-fold higher total body fat and serum triglyceride levels. However, CD-1[ΔmGH.hGH] and CD-1[mGH] mice grow at the same rate with similar cortical and trabecular bone densities. Unlike CD-1[mGH] mice, there was no significant delay in glucose clearance in CD-1[ΔmGH.hGH] mice after 8 weeks on a HFDversusRCD; while basal (RCD) serum insulin levels were similar, fasting glucose levels were lower and pancreas IGF-2 RNA levels were increased in CD-1[ΔmGH.hGH] mice. However, both CD-1[ΔmGH.hGH] and CD-1[mGH] showed evidence of increased insulin resistance after 24 weeks on HFD, including delayed glucose clearance in spite of increased pancreatic islet area and insulin production as well as signs of liver steatosis and increased hepatic triglyceride levels. These increases correlated with elevated PRLR but not GHR RNA levels. Assessment of eWAT revealed >2-fold larger adipocytes in CD-1[ΔmGH.hGH] compared to CD-1 [mGH] mice fed RCD at both 12 and 28 weeks. This was associated with an ∼2.6-fold increase in leptin RNA levels at 12 weeks and ∼58% lower adiponectin RNA levels at 28 weeks. A >2-fold increase in p21CIP1transcript levels was also detected in eWAT from both CD-1[ΔmGH.hGH] and CD-1 [mGH] mice fed RCD with age (28versus12 weeks) but were unaffected by diet. However, a >2-fold increase in p16INK4aRNA levels was observed after 24 weeks on HFD.ConclusionsWhile limited to observations in the male, transgenic CD-1[ΔmGH.hGH] mice exhibit signs of GH insufficiency and eWAT adipocyte dysfunction. These mice also show an initial resistance to the negative effects of HFD on glucose clearance when compared to CD-1[mGH] mice, which is potentially related to a differential effect of hGHversusmGH on pancreas development and/or function.

show abstract

Sleep deprivation and diet affect human GH gene expression in transgenic mice in vivo

Cited by 3 publications

References 47 publications

Mice with gene alterations in the GH and IGF family

Mice with gene alterations in the GH and IGF family

Sleep

Increased capacity to maintain glucose homeostasis in a transgenic mouse expressing human but not mouse growth hormone with developing high fat diet-related insulin resistance, steatosis and adipose dysfunction

Contact Info

Product

Resources

About