Steroid Deficiency Syndromes in Mice with Targeted Disruption of Cyp11a1

doi:10.1210/me.2002-0055

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Steroid Deficiency Syndromes in Mice with Targeted Disruption of Cyp11a1

Meng-Chun Hu, Nai-Chi Hsu, Noomen Ben El Hadj, Chin-I Pai, Hsueh-Ping Chu, Chi-Kuang Leo Wang and Bon-chu Chung

Institute of Molecular Biology, Academia Sinica, Nankang, Taipei 115, Taiwan

Address all correspondence and requests for reprints to: Dr. Bon-chu Chung, Institute of Molecular Biology, 48 Academia Sinica, Nankang, Taipei 115, Taiwan. E-mail: mbchung{at}sinica.edu.tw.

Steroid deficiencies are diseases affecting salt levels, sugarlevels, and sexual differentiation. To study steroid deficiencyin more detail, we used a gene-targeting technique to inserta neo gene into the first exon to disrupt Cyp11a1, the firstgene in steroid biosynthetic pathways. Cyp11a1 null mice donot synthesize steroids. They die shortly after birth, but canbe rescued by steroid injection. Due to the lack of feedbackinhibition by glucocorticoid, their circulating ACTH levelsare exceedingly high; this results in ectopic Cyp21 gene expressionin the testis. Male Cyp11a1 null mice are feminized with femaleexternal genitalia and underdeveloped male accessory sex organs.Their testis, epididymis, and vas deferens are present, butundersized. In addition, their adrenals and gonads accumulateexcessive amounts of lipid. The lack of steroid production,abnormal gene expression, and aberrant reproductive organ developmentresemble various steroid deficiency syndromes, making thesemice good models for studies of steroid function and regulation.

NURSA Molecule Pages Link:

: Ligands: Aldosterone

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				N. Yivgi-Ohana, N. Sher, N. Melamed-Book, S. Eimerl, M. Koler, P. R. Manna, D. M. Stocco, and J. Orly Transcription of Steroidogenic Acute Regulatory Protein in the Rodent Ovary and Placenta: Alternative Modes of Cyclic Adenosine 3', 5'-Monophosphate Dependent and Independent Regulation Endocrinology, February 1, 2009; 150(2): 977 - 989. [Abstract] [Full Text] [PDF]

				M.-C. Shih, N.-C. Hsu, C.-C. Huang, T.-S. Wu, P.-Y. Lai, and B.-c. Chung Mutation of Mouse Cyp11a1 Promoter Caused Tissue-Specific Reduction of Gene Expression and Blunted Stress Response without Affecting Reproduction Mol. Endocrinol., April 1, 2008; 22(4): 915 - 923. [Abstract] [Full Text] [PDF]

				C. J. Kim, L. Lin, N. Huang, C. A. Quigley, T. W. AvRuskin, J. C. Achermann, and W. L. Miller Severe Combined Adrenal and Gonadal Deficiency Caused by Novel Mutations in the Cholesterol Side Chain Cleavage Enzyme, P450scc J. Clin. Endocrinol. Metab., March 1, 2008; 93(3): 696 - 702. [Abstract] [Full Text] [PDF]

				T. D. Gallardo, G. B. John, L. Shirley, C. M. Contreras, E. A. Akbay, J. M. Haynie, S. E. Ward, M. J. Shidler, and D. H. Castrillon Genomewide Discovery and Classification of Candidate Ovarian Fertility Genes in the Mouse Genetics, September 1, 2007; 177(1): 179 - 194. [Abstract] [Full Text] [PDF]

				N. Sher, N. Yivgi-Ohana, and J. Orly Transcriptional Regulation of the Cholesterol Side Chain Cleavage Cytochrome P450 Gene (CYP11A1) Revisited: Binding of GATA, Cyclic Adenosine 3',5'-Monophosphate Response Element-Binding Protein and Activating Protein (AP)-1 Proteins to a Distal Novel Cluster of cis-Regulatory Elements Potentiates AP-2 and Steroidogenic Factor-1-Dependent Gene Expression in the Rodent Placenta and Ovary Mol. Endocrinol., April 1, 2007; 21(4): 948 - 962. [Abstract] [Full Text] [PDF]

				W. L. Miller StAR Search--What We Know about How the Steroidogenic Acute Regulatory Protein Mediates Mitochondrial Cholesterol Import Mol. Endocrinol., March 1, 2007; 21(3): 589 - 601. [Abstract] [Full Text] [PDF]

				B. Cole, K. Hensinger, G. A. R. Maciel, R. J. Chang, and G. F. Erickson Human Fetal Ovary Development Involves the Spatiotemporal Expression of P450c17 Protein J. Clin. Endocrinol. Metab., September 1, 2006; 91(9): 3654 - 3661. [Abstract] [Full Text] [PDF]

				H. al Kandari, N. Katsumata, S. Alexander, and M. A. Rasoul Homozygous Mutation of P450 Side-Chain Cleavage Enzyme Gene (CYP11A1) in 46, XY Patient with Adrenal Insufficiency, Complete Sex Reversal, and Agenesis of Corpus Callosum J. Clin. Endocrinol. Metab., August 1, 2006; 91(8): 2821 - 2826. [Abstract] [Full Text] [PDF]

				G. Lee, N. Makhanova, K. Caron, M. L. S. Lopez, R. A. Gomez, O. Smithies, and H.-S. Kim Homeostatic Responses in the Adrenal Cortex to the Absence of Aldosterone in Mice Endocrinology, June 1, 2005; 146(6): 2650 - 2656. [Abstract] [Full Text] [PDF]

				A. H. Payne and D. B. Hales Overview of Steroidogenic Enzymes in the Pathway from Cholesterol to Active Steroid Hormones Endocr. Rev., December 1, 2004; 25(6): 947 - 970. [Abstract] [Full Text] [PDF]

				K. Hilscherova, P. D. Jones, T. Gracia, J. L. Newsted, X. Zhang, J. T. Sanderson, R. M. K. Yu, R. S. S. Wu, and J. P. Giesy Assessment of the Effects of Chemicals on the Expression of Ten Steroidogenic Genes in the H295R Cell Line Using Real-Time PCR Toxicol. Sci., September 1, 2004; 81(1): 78 - 89. [Abstract] [Full Text] [PDF]

				S. R. Bair and S. H. Mellon Deletion of the Mouse P450c17 Gene Causes Early Embryonic Lethality Mol. Cell. Biol., June 15, 2004; 24(12): 5383 - 5390. [Abstract] [Full Text] [PDF]

				P. J. O'Shaughnessy, L. M. Fleming, G. Jackson, U. Hochgeschwender, P. Reed, and P. J. Baker Adrenocorticotropic Hormone Directly Stimulates Testosterone Production by the Fetal and Neonatal Mouse Testis Endocrinology, August 1, 2003; 144(8): 3279 - 3284. [Abstract] [Full Text] [PDF]

				T. Ishii, T. Hasegawa, C.-I Pai, N. Yvgi-Ohana, R. Timberg, L. Zhao, G. Majdic, B.-c. Chung, J. Orly, and K. L. Parker The Roles of Circulating High-Density Lipoproteins and Trophic Hormones in the Phenotype of Knockout Mice Lacking the Steroidogenic Acute Regulatory Protein Mol. Endocrinol., October 1, 2002; 16(10): 2297 - 2309. [Abstract] [Full Text] [PDF]