The transcription factor ATF4 regulates glucose metabolism in mice through its expression in osteoblasts
The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominantly in osteoblasts, where it regula...
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| Published in | The Journal of clinical investigation Vol. 119; no. 9; pp. 2807 - 2817 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Society for Clinical Investigation
01.09.2009
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| Subjects | |
| Online Access | Get full text |
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| Abstract | The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominantly in osteoblasts, where it regulates virtually all functions linked to the maintenance of bone mass. Since Atf4-/- mice have smaller fat pads than littermate controls, we investigated whether ATF4 also influences energy metabolism. Here, we have shown, through analysis of Atf4-/- mice, that ATF4 inhibits insulin secretion and decreases insulin sensitivity in liver, fat, and muscle. Several lines of evidence indicated that this function of ATF4 occurred through its osteoblastic expression. First, insulin sensitivity is enhanced in the liver of Atf4-/- mice, but not in cultured hepatocytes from these mice. Second, mice overexpressing ATF4 in osteoblasts only [termed here alpha1(I)Collagen-Atf4 mice] displayed a decrease in insulin secretion and were insulin insensitive. Third, the alpha1(I)Collagen-Atf4 transgene corrected the energy metabolism phenotype of Atf4-/- mice. Fourth, and more definitely, mice lacking ATF4 only in osteoblasts presented the same metabolic abnormalities as Atf4-/- mice. Molecularly, ATF4 favored expression in osteoblasts of Esp, which encodes a product that decreases the bioactivity of osteocalcin, an osteoblast-specific secreted molecule that enhances secretion of and sensitivity to insulin. These results provide a transcriptional basis to the observation that osteoblasts fulfill endocrine functions and identify ATF4 as a regulator of most functions of osteoblasts. |
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| AbstractList | The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominantly in osteoblasts, where it regulates virtually all functions linked to the maintenance of bone mass. Since Atf4-/- mice have smaller fat pads than littermate controls, we investigated whether ATF4 also influences energy metabolism. Here, we have shown, through analysis of Atf4-/- mice, that ATF4 inhibits insulin secretion and decreases insulin sensitivity in liver, fat, and muscle. Several lines of evidence indicated that this function of ATF4 occurred through its osteoblastic expression. First, insulin sensitivity is enhanced in the liver of Atf4-/- mice, but not in cultured hepatocytes from these mice. Second, mice overexpressing ATF4 in osteoblasts only [termed here alpha1(I)Collagen-Atf4 mice] displayed a decrease in insulin secretion and were insulin insensitive. Third, the alpha1(I)Collagen-Atf4 transgene corrected the energy metabolism phenotype of Atf4-/- mice. Fourth, and more definitely, mice lacking ATF4 only in osteoblasts presented the same metabolic abnormalities as Atf4-/- mice. Molecularly, ATF4 favored expression in osteoblasts of Esp, which encodes a product that decreases the bioactivity of osteocalcin, an osteoblast-specific secreted molecule that enhances secretion of and sensitivity to insulin. These results provide a transcriptional basis to the observation that osteoblasts fulfill endocrine functions and identify ATF4 as a regulator of most functions of osteoblasts.The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominantly in osteoblasts, where it regulates virtually all functions linked to the maintenance of bone mass. Since Atf4-/- mice have smaller fat pads than littermate controls, we investigated whether ATF4 also influences energy metabolism. Here, we have shown, through analysis of Atf4-/- mice, that ATF4 inhibits insulin secretion and decreases insulin sensitivity in liver, fat, and muscle. Several lines of evidence indicated that this function of ATF4 occurred through its osteoblastic expression. First, insulin sensitivity is enhanced in the liver of Atf4-/- mice, but not in cultured hepatocytes from these mice. Second, mice overexpressing ATF4 in osteoblasts only [termed here alpha1(I)Collagen-Atf4 mice] displayed a decrease in insulin secretion and were insulin insensitive. Third, the alpha1(I)Collagen-Atf4 transgene corrected the energy metabolism phenotype of Atf4-/- mice. Fourth, and more definitely, mice lacking ATF4 only in osteoblasts presented the same metabolic abnormalities as Atf4-/- mice. Molecularly, ATF4 favored expression in osteoblasts of Esp, which encodes a product that decreases the bioactivity of osteocalcin, an osteoblast-specific secreted molecule that enhances secretion of and sensitivity to insulin. These results provide a transcriptional basis to the observation that osteoblasts fulfill endocrine functions and identify ATF4 as a regulator of most functions of osteoblasts. The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominantly in osteoblasts, where it regulates virtually all functions linked to the maintenance of bone mass. Since Atf4-/- mice have smaller fat pads than littermate controls, we investigated whether ATF4 also influences energy metabolism. Here, we have shown, through analysis of Atf4-/- mice, that ATF4 inhibits insulin secretion and decreases insulin sensitivity in liver, fat, and muscle. Several lines of evidence indicated that this function of ATF4 occurred through its osteoblastic expression. First, insulin sensitivity is enhanced in the liver of Atf4-/- mice, but not in cultured hepatocytes from these mice. Second, mice overexpressing ATF4 in osteoblasts only [termed here alpha1(I)Collagen-Atf4 mice] displayed a decrease in insulin secretion and were insulin insensitive. Third, the alpha1(I)Collagen-Atf4 transgene corrected the energy metabolism phenotype of Atf4-/- mice. Fourth, and more definitely, mice lacking ATF4 only in osteoblasts presented the same metabolic abnormalities as Atf4-/- mice. Molecularly, ATF4 favored expression in osteoblasts of Esp, which encodes a product that decreases the bioactivity of osteocalcin, an osteoblast-specific secreted molecule that enhances secretion of and sensitivity to insulin. These results provide a transcriptional basis to the observation that osteoblasts fulfill endocrine functions and identify ATF4 as a regulator of most functions of osteoblasts. The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominandy in osteoblasts, where it regulates virtually all functions linked to the maintenance of bone mass. Since [Atf4.sup.[-/-]] mice have smaller fat pads than littermate controls, we investigated whether ATF4 also influences energy metabolism. Here, we have shown, through analysis of [Atf4.sup.[-/-]] mice, that ATF4 inhibits insulin secretion and decreases insulin sensitivity in liver, fat, and muscle. Several lines of evidence indicated that this function of ATF4 occurred through its osteoblastic expression. First, insulin sensitivity is enhanced in the liver of [Atf4.sup.[-/-]] mice, but not in cultured hepatocytes from these mice. Second, mice overexpressing ATF4 in osteoblasts only [termed here αl(I)Collagen-Atf4 mice] displayed a decrease in insulin secretion and were insulin insensitive. Third, the αl(I)Collagen-Atf4 transgene corrected the energy metabolism phenotype of [Atf4.sup.[-/-]] mice. Fourth, and more definitely, mice lacking ATF4 only in osteoblasts presented the same metabolic abnormalities as [Atf4.sup.[-/-]] mice. Molecularly, ATF4 favored expression in osteoblasts of Esp, which encodes a product that decreases the bioactivity of osteocalcin, an osteoblast-specific secreted molecule that enhances secretion of and sensitivity to insulin. These results provide a transcriptional basis to the observation that osteoblasts fulfill endocrine functions and identify ATF4 as a regulator of most functions of osteoblasts. The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in this process. Activating transcription factor 4 (ATF4) is a transcription factor that accumulates predominantly in osteoblasts, where it regulates virtually all functions linked to the maintenance of bone mass. Since Atf4 –/– mice have smaller fat pads than littermate controls, we investigated whether ATF4 also influences energy metabolism. Here, we have shown, through analysis of Atf4 –/– mice, that ATF4 inhibits insulin secretion and decreases insulin sensitivity in liver, fat, and muscle. Several lines of evidence indicated that this function of ATF4 occurred through its osteoblastic expression. First, insulin sensitivity is enhanced in the liver of Atf4 –/– mice, but not in cultured hepatocytes from these mice. Second, mice overexpressing ATF4 in osteoblasts only [termed here α1(I)Collagen-Atf4 mice] displayed a decrease in insulin secretion and were insulin insensitive. Third, the α1(I)Collagen-Atf4 transgene corrected the energy metabolism phenotype of Atf4 –/– mice. Fourth, and more definitely, mice lacking ATF4 only in osteoblasts presented the same metabolic abnormalities as Atf4 –/– mice. Molecularly, ATF4 favored expression in osteoblasts of Esp , which encodes a product that decreases the bioactivity of osteocalcin, an osteoblast-specific secreted molecule that enhances secretion of and sensitivity to insulin. These results provide a transcriptional basis to the observation that osteoblasts fulfill endocrine functions and identify ATF4 as a regulator of most functions of osteoblasts. |
| Audience | Academic |
| Author | Ferron, Mathieu Seo, Jin Kim, Jason K. Yoshizawa, Tatsuya Karsenty, Gerard Graff, Jonathan M. Kajimura, Daisuke Hinoi, Eiichi Jung, Dae Young |
| AuthorAffiliation | 1 Department of Genetics and Development, Columbia University College of Physicians and Surgeons, New York, New York, USA. 2 Program in Molecular Medicine, University of Massachusetts Medical School, Worcester, Massachusetts, USA. 3 Department of Developmental Biology, University of Texas Southwestern Medical Center, Dallas, Texas, USA. 4 Department of Medicine, Division of Endocrinology, University of Massachusetts Medical School, Worcester, Massachusetts, USA |
| AuthorAffiliation_xml | – name: 1 Department of Genetics and Development, Columbia University College of Physicians and Surgeons, New York, New York, USA. 2 Program in Molecular Medicine, University of Massachusetts Medical School, Worcester, Massachusetts, USA. 3 Department of Developmental Biology, University of Texas Southwestern Medical Center, Dallas, Texas, USA. 4 Department of Medicine, Division of Endocrinology, University of Massachusetts Medical School, Worcester, Massachusetts, USA |
| Author_xml | – sequence: 1 givenname: Tatsuya surname: Yoshizawa fullname: Yoshizawa, Tatsuya – sequence: 2 givenname: Eiichi surname: Hinoi fullname: Hinoi, Eiichi – sequence: 3 givenname: Dae Young surname: Jung fullname: Jung, Dae Young – sequence: 4 givenname: Daisuke surname: Kajimura fullname: Kajimura, Daisuke – sequence: 5 givenname: Mathieu surname: Ferron fullname: Ferron, Mathieu – sequence: 6 givenname: Jin surname: Seo fullname: Seo, Jin – sequence: 7 givenname: Jonathan M. surname: Graff fullname: Graff, Jonathan M. – sequence: 8 givenname: Jason K. surname: Kim fullname: Kim, Jason K. – sequence: 9 givenname: Gerard surname: Karsenty fullname: Karsenty, Gerard |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/19726872$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | COPYRIGHT 2009 American Society for Clinical Investigation Copyright American Society for Clinical Investigation Sep 2009 Copyright © 2009, American Society for Clinical Investigation |
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| Snippet | The recent demonstration that osteoblasts have a role in controlling energy metabolism suggests that they express cell-specific regulatory genes involved in... |
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| SubjectTerms | Activating Transcription Factor 4 - deficiency Activating Transcription Factor 4 - genetics Activating Transcription Factor 4 - metabolism Animals Biological activity Biomedical research Bones Collagen Density Dextrose Gene Expression Gene therapy Glucose Glucose - metabolism Insulin Insulin - metabolism Insulin Secretion Kinases Liver Metabolism Mice Mice, Inbred C57BL Mice, Knockout Mice, Mutant Strains Mice, Transgenic Models, Biological Osteoblasts - metabolism Osteocalcin - metabolism Phenotype Phosphorylation Stem cells Transcription factors |
| Title | The transcription factor ATF4 regulates glucose metabolism in mice through its expression in osteoblasts |
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