Growth hormone activity in mitochondria depends on GH receptor Box 1 and involves caveolar pathway targeting

Growth hormone (GH) binding to its receptor (GHR) initiates GH-dependent signal transduction and internalization pathways to generate the biological effects. The precise role and way of action of GH on mitochondrial function are not yet fully understood. We show here that GH can stimulate cellular o...

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Bibliographic Details
Published in:Experimental cell research 2006-02, Vol.312 (3), p.215-232
Main Authors: Perret-Vivancos, Cécile, Abbate, Aude, Ardail, Dominique, Raccurt, Mireille, Usson, Yves, Lobie, Peter E., Morel, Gérard
Format: Article
Language:English
Subjects:
60 APPLIED LIFE SCIENCES
ADENINES
Animals
Bioengineering
BIOLOGICAL EFFECTS
Caveolae
Caveolae - metabolism
Caveolin-1
CHO CELLS
CHO Cells - metabolism
Clathrin-Coated Vesicles
Clathrin-Coated Vesicles - metabolism
Cricetinae
DNA, Complementary
DNA, Complementary - genetics
DNA, Complementary - metabolism
Endocytosis
FAD
FLUORESCENCE
GHR mutations
Growth Hormone
Growth Hormone - metabolism
HAMSTERS
Imaging
Life Sciences
Male
Microscopy, Fluorescence
MITOCHONDRIA
Mitochondria, Liver
Mitochondria, Liver - metabolism
Mitochondrion
MUTATIONS
NADH
NICOTINE
Other
OVARIES
Oxygen Consumption
POLAROGRAPHY
RATS
Rats, Wistar
RECEPTORS
Receptors, Somatotropin
Receptors, Somatotropin - metabolism
Respiration
Signal Transduction
SPECTROSCOPY
STH
Transfection
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Summary:Growth hormone (GH) binding to its receptor (GHR) initiates GH-dependent signal transduction and internalization pathways to generate the biological effects. The precise role and way of action of GH on mitochondrial function are not yet fully understood. We show here that GH can stimulate cellular oxygen consumption in CHO cells transfected with cDNA coding for the full-length GHR. By using different GHR cDNA constructs, we succeeded in determining the different parts of the GHR implicated in the mitochondrial response to GH. Polarography and two-photon excitation fluorescence microscopy analysis showed that the Box 1 of the GHR intracellular domain was required for an activation of the mitochondrial respiration in response to a GH exposure. However, confocal laser scanning microscopy demonstrated that cells lacking the GHR Box 1 could efficiently internalize the hormone. We demonstrated that internalization mediated either by clathrin-coated pits or by caveolae was able to regulate GH mitochondrial effect: these two pathways are both essential to obtain the GH stimulatory action on mitochondrial function. Moreover, electron microscopic and biochemical approaches allowed us to identify the caveolar pathway as essential for targeting GH and GHR to mitochondria.
ISSN:0014-4827
1090-2422
DOI:10.1016/j.yexcr.2005.10.027