Nutrition-induced catch-up growth increases hypoxia inducible factor 1α RNA levels in the growth plate

N. Even-Zohar; J. Jacob; N. Amariglio; G. Rechavi; O. Potievsky; M. Phillip; G. Gat-Yablonski

doi:10.1016/j.bone.2007.10.015

Nutrition-induced catch-up growth increases hypoxia inducible factor 1α RNA levels in the growth plate

N. Even-Zohar, J. Jacob, N. Amariglio, G. Rechavi, O. Potievsky, M. Phillip, G. Gat-Yablonski

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

Although catch-up growth is a well-known phenomenon, the local pathways at the epiphyseal growth plate that govern this process remain poorly understood. To study the mechanisms governing catch-up growth in the growth plate, we subjected prepubertal rats to 10 days of 40% food restriction, followed by a renewal of the regular food supply to induce catch-up growth. The animals were weighed daily, and their humeral length was measured at sacrifice. The proximal tibial epiphyseal growth plates (EGPs) were studied, and findings were compared with EGPs from animals fed ad libitum and animals under food restriction. The gene expression profile in the growth plates was examined using DNA microarrays, and the expression levels of selected genes were validated by real-time polymerase chain reaction. To localize gene expression in different growth plate zones, microdissection was used. Protein levels and localization were examined using immunohistochemistry. We showed that the expression level of 550 genes decreased during food restriction and increased during catch-up growth, starting already one day after refeeding. HIF-1α, as well as several of its downstream targets, was found among these genes. Immunohistochemistry showed a similar pattern for HIF-1α protein abundance. Additionally, HIF-1α mRNA and protein levels were higher in the proliferating than in the hypertrophic zone, and this distribution was unaffected by nutritional status. These findings indicate that nutrition has a profound effect on gene expression level during growth plate growth, and suggest an important role for HIF-1α in the growth plate and its response to nutritional manipulation.

Original language	English
Pages (from-to)	505-515
Number of pages	11
Journal	Bone
Volume	42
Issue number	3
DOIs	https://doi.org/10.1016/j.bone.2007.10.015
State	Published - Mar 2008
Externally published	Yes

Bibliographical note

Funding Information:
This work was supported by the Israel Science Foundation and the Public Committee for Allocation of Estate Funds, Ministry of Justice, Israel.

Funding Information:
This study was supported by grant no 1014/03 from the Israel Science Foundation; and (in part) by grant no. 3-2036 from the Public Committee for Allocation of Estate Funds, Ministry of Justice, Israel. The first author is an incumbent for a Fulbright scholarship. This work was performed in partial fulfillment of the requirements for a Ph.D. degree of Naomi Even-Zohar, Sackler Faculty of medicine, Tel Aviv University, Israel.

Funding

This work was supported by the Israel Science Foundation and the Public Committee for Allocation of Estate Funds, Ministry of Justice, Israel. This study was supported by grant no 1014/03 from the Israel Science Foundation; and (in part) by grant no. 3-2036 from the Public Committee for Allocation of Estate Funds, Ministry of Justice, Israel. The first author is an incumbent for a Fulbright scholarship. This work was performed in partial fulfillment of the requirements for a Ph.D. degree of Naomi Even-Zohar, Sackler Faculty of medicine, Tel Aviv University, Israel.

Funders	Funder number
Ministry of Justice, Israel
Israel Science Foundation	3-2036

Keywords

Catch-up growth
Food restriction
Growth plate
HIF-1α
Nutrition

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.bone.2007.10.015

Cite this

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title = "Nutrition-induced catch-up growth increases hypoxia inducible factor 1α RNA levels in the growth plate",

abstract = "Although catch-up growth is a well-known phenomenon, the local pathways at the epiphyseal growth plate that govern this process remain poorly understood. To study the mechanisms governing catch-up growth in the growth plate, we subjected prepubertal rats to 10 days of 40% food restriction, followed by a renewal of the regular food supply to induce catch-up growth. The animals were weighed daily, and their humeral length was measured at sacrifice. The proximal tibial epiphyseal growth plates (EGPs) were studied, and findings were compared with EGPs from animals fed ad libitum and animals under food restriction. The gene expression profile in the growth plates was examined using DNA microarrays, and the expression levels of selected genes were validated by real-time polymerase chain reaction. To localize gene expression in different growth plate zones, microdissection was used. Protein levels and localization were examined using immunohistochemistry. We showed that the expression level of 550 genes decreased during food restriction and increased during catch-up growth, starting already one day after refeeding. HIF-1α, as well as several of its downstream targets, was found among these genes. Immunohistochemistry showed a similar pattern for HIF-1α protein abundance. Additionally, HIF-1α mRNA and protein levels were higher in the proliferating than in the hypertrophic zone, and this distribution was unaffected by nutritional status. These findings indicate that nutrition has a profound effect on gene expression level during growth plate growth, and suggest an important role for HIF-1α in the growth plate and its response to nutritional manipulation.",

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author = "N. Even-Zohar and J. Jacob and N. Amariglio and G. Rechavi and O. Potievsky and M. Phillip and G. Gat-Yablonski",

note = "Funding Information: This work was supported by the Israel Science Foundation and the Public Committee for Allocation of Estate Funds, Ministry of Justice, Israel. Funding Information: This study was supported by grant no 1014/03 from the Israel Science Foundation; and (in part) by grant no. 3-2036 from the Public Committee for Allocation of Estate Funds, Ministry of Justice, Israel. The first author is an incumbent for a Fulbright scholarship. This work was performed in partial fulfillment of the requirements for a Ph.D. degree of Naomi Even-Zohar, Sackler Faculty of medicine, Tel Aviv University, Israel.",

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AU - Potievsky, O.

AU - Phillip, M.

AU - Gat-Yablonski, G.

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N2 - Although catch-up growth is a well-known phenomenon, the local pathways at the epiphyseal growth plate that govern this process remain poorly understood. To study the mechanisms governing catch-up growth in the growth plate, we subjected prepubertal rats to 10 days of 40% food restriction, followed by a renewal of the regular food supply to induce catch-up growth. The animals were weighed daily, and their humeral length was measured at sacrifice. The proximal tibial epiphyseal growth plates (EGPs) were studied, and findings were compared with EGPs from animals fed ad libitum and animals under food restriction. The gene expression profile in the growth plates was examined using DNA microarrays, and the expression levels of selected genes were validated by real-time polymerase chain reaction. To localize gene expression in different growth plate zones, microdissection was used. Protein levels and localization were examined using immunohistochemistry. We showed that the expression level of 550 genes decreased during food restriction and increased during catch-up growth, starting already one day after refeeding. HIF-1α, as well as several of its downstream targets, was found among these genes. Immunohistochemistry showed a similar pattern for HIF-1α protein abundance. Additionally, HIF-1α mRNA and protein levels were higher in the proliferating than in the hypertrophic zone, and this distribution was unaffected by nutritional status. These findings indicate that nutrition has a profound effect on gene expression level during growth plate growth, and suggest an important role for HIF-1α in the growth plate and its response to nutritional manipulation.

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Nutrition-induced catch-up growth increases hypoxia inducible factor 1α RNA levels in the growth plate

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

Access to Document

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Cite this