Unveiling ceramide dynamics: Shedding light on healthy aging in growth hormone‐releasing hormone knockout mice

Dysregulation of growth hormone (GH) signaling consistently leads to increased lifespan in laboratory rodents, yet the precise mechanisms driving this extension remain unclear. Understanding the molecular underpinnings of the beneficial effects associated with GH deficiency could unveil novel therap...

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Veröffentlicht in:	Aging cell 2024-08, Vol.23 (8), p.e14226-n/a
Hauptverfasser:	Lasher, Alexander Tate, Wang, Liping, Hyun, Jooyoung, Summers, Scott A., Sun, Liou Y.
Format:	Artikel
Sprache:	eng
Schlagworte:	Age Aging Cell death Ceramide Chronic illnesses Females Gene expression GHRH Growth hormone-releasing hormone Growth hormones Hepatocytes Insulin Insulin resistance Insulin-like growth factors Kinases Laboratories Laboratory animals Life span lifespan lipidomics Lipids Liver Longevity metabolic Metabolism Molecular modelling Oxidative stress Physiology Principal components analysis Rodents Serum lipids Short Communication Therapeutic targets
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creator	Lasher, Alexander Tate Wang, Liping Hyun, Jooyoung Summers, Scott A. Sun, Liou Y.
description	Dysregulation of growth hormone (GH) signaling consistently leads to increased lifespan in laboratory rodents, yet the precise mechanisms driving this extension remain unclear. Understanding the molecular underpinnings of the beneficial effects associated with GH deficiency could unveil novel therapeutic targets for promoting healthy aging and longevity. In our pursuit of identifying metabolites implicated in aging, we conducted an unbiased lipidomic analysis of serum samples from growth hormone‐releasing hormone knockout (GHRH‐KO) female mice and their littermate controls. Employing a targeted lipidomic approach, we specifically investigated ceramide levels in GHRH‐KO mice, a well‐established model of enhanced longevity. While younger GHRH‐KO mice did not exhibit notable differences in serum lipids, older counterparts demonstrated significant reductions in over one‐third of the evaluated lipids. In employing the same analysis in liver tissue, GHRH‐KO mice showed pronounced downregulation of numerous ceramides and hexosylceramides, which have been shown to elicit many of the tissue defects that accompany aging (e.g., insulin resistance, oxidative stress, and cell death). Additionally, gene expression analysis in the liver tissue of adult GHRH‐KO mice identified substantial decreases in several ceramide synthesis genes, indicating that these alterations are, at least in part, attributed to GHRH‐KO‐induced transcriptional changes. These findings provide the first evidence of disrupted ceramide metabolism in a long‐lived mammal. This study sheds light on the intricate connections between GH deficiency, ceramide levels, and the molecular mechanisms influencing lifespan extension. Dysregulation of GH signaling extends lifespan in rodents, but the mechanisms remain unclear. Our lipidomic analysis of GHRH‐KO mice reveals reduced ceramide levels in serum and liver tissue, suggesting altered metabolism in long‐lived mammals. This sheds light on the link between GH deficiency, ceramide levels, and lifespan extension.
doi_str_mv	10.1111/acel.14226
format	Article
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Understanding the molecular underpinnings of the beneficial effects associated with GH deficiency could unveil novel therapeutic targets for promoting healthy aging and longevity. In our pursuit of identifying metabolites implicated in aging, we conducted an unbiased lipidomic analysis of serum samples from growth hormone‐releasing hormone knockout (GHRH‐KO) female mice and their littermate controls. Employing a targeted lipidomic approach, we specifically investigated ceramide levels in GHRH‐KO mice, a well‐established model of enhanced longevity. While younger GHRH‐KO mice did not exhibit notable differences in serum lipids, older counterparts demonstrated significant reductions in over one‐third of the evaluated lipids. In employing the same analysis in liver tissue, GHRH‐KO mice showed pronounced downregulation of numerous ceramides and hexosylceramides, which have been shown to elicit many of the tissue defects that accompany aging (e.g., insulin resistance, oxidative stress, and cell death). Additionally, gene expression analysis in the liver tissue of adult GHRH‐KO mice identified substantial decreases in several ceramide synthesis genes, indicating that these alterations are, at least in part, attributed to GHRH‐KO‐induced transcriptional changes. These findings provide the first evidence of disrupted ceramide metabolism in a long‐lived mammal. This study sheds light on the intricate connections between GH deficiency, ceramide levels, and the molecular mechanisms influencing lifespan extension. Dysregulation of GH signaling extends lifespan in rodents, but the mechanisms remain unclear. Our lipidomic analysis of GHRH‐KO mice reveals reduced ceramide levels in serum and liver tissue, suggesting altered metabolism in long‐lived mammals. 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Understanding the molecular underpinnings of the beneficial effects associated with GH deficiency could unveil novel therapeutic targets for promoting healthy aging and longevity. In our pursuit of identifying metabolites implicated in aging, we conducted an unbiased lipidomic analysis of serum samples from growth hormone‐releasing hormone knockout (GHRH‐KO) female mice and their littermate controls. Employing a targeted lipidomic approach, we specifically investigated ceramide levels in GHRH‐KO mice, a well‐established model of enhanced longevity. While younger GHRH‐KO mice did not exhibit notable differences in serum lipids, older counterparts demonstrated significant reductions in over one‐third of the evaluated lipids. In employing the same analysis in liver tissue, GHRH‐KO mice showed pronounced downregulation of numerous ceramides and hexosylceramides, which have been shown to elicit many of the tissue defects that accompany aging (e.g., insulin resistance, oxidative stress, and cell death). Additionally, gene expression analysis in the liver tissue of adult GHRH‐KO mice identified substantial decreases in several ceramide synthesis genes, indicating that these alterations are, at least in part, attributed to GHRH‐KO‐induced transcriptional changes. These findings provide the first evidence of disrupted ceramide metabolism in a long‐lived mammal. This study sheds light on the intricate connections between GH deficiency, ceramide levels, and the molecular mechanisms influencing lifespan extension. Dysregulation of GH signaling extends lifespan in rodents, but the mechanisms remain unclear. 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In employing the same analysis in liver tissue, GHRH‐KO mice showed pronounced downregulation of numerous ceramides and hexosylceramides, which have been shown to elicit many of the tissue defects that accompany aging (e.g., insulin resistance, oxidative stress, and cell death). Additionally, gene expression analysis in the liver tissue of adult GHRH‐KO mice identified substantial decreases in several ceramide synthesis genes, indicating that these alterations are, at least in part, attributed to GHRH‐KO‐induced transcriptional changes. These findings provide the first evidence of disrupted ceramide metabolism in a long‐lived mammal. This study sheds light on the intricate connections between GH deficiency, ceramide levels, and the molecular mechanisms influencing lifespan extension. Dysregulation of GH signaling extends lifespan in rodents, but the mechanisms remain unclear. Our lipidomic analysis of GHRH‐KO mice reveals reduced ceramide levels in serum and liver tissue, suggesting altered metabolism in long‐lived mammals. This sheds light on the link between GH deficiency, ceramide levels, and lifespan extension.</abstract><cop>England</cop><pub>John Wiley & Sons, Inc</pub><pmid>38808779</pmid><doi>10.1111/acel.14226</doi><tpages>6</tpages><orcidid>https://orcid.org/0000-0002-9802-6780</orcidid><orcidid>https://orcid.org/0000-0002-6232-2844</orcidid><orcidid>https://orcid.org/0000-0002-4919-0592</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Age Aging Cell death Ceramide Chronic illnesses Females Gene expression GHRH Growth hormone-releasing hormone Growth hormones Hepatocytes Insulin Insulin resistance Insulin-like growth factors Kinases Laboratories Laboratory animals Life span lifespan lipidomics Lipids Liver Longevity metabolic Metabolism Molecular modelling Oxidative stress Physiology Principal components analysis Rodents Serum lipids Short Communication Therapeutic targets
title	Unveiling ceramide dynamics: Shedding light on healthy aging in growth hormone‐releasing hormone knockout mice
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