Drug Ligand-Induced Activation of Translocator Protein (TSPO) Stimulates Steroid Production by Aged Brown Norway Rat Leydig Cells

Chung, Jin Yong; Chen, H.; Midzak, Andrew; Burnett, Arthur L.; Papadopoulos, Vassilios; Zirkin, Barry R.

doi:10.1210/en.2012-2226

Cited by 57 publications

(58 citation statements)

References 69 publications

(65 reference statements)

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“…TSPO binding chemicals have been shown to increase steroid hormone production in isolated mitochondria from steroidogenic cells (35), MA-10 cells (37), and even live rats (68). Given our current findings, we can offer two possible explanations for these pharmacological effects.…”

Section: Discussionmentioning

confidence: 64%

Peripheral Benzodiazepine Receptor/Translocator Protein Global Knock-out Mice Are Viable with No Effects on Steroid Hormone Biosynthesis

Morohaku

Manna

et al. 2014

Journal of Biological Chemistry

208

199

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Background: Translocator protein (TSPO) has been considered a mitochondrial cholesterol transporter critical for steroid hormone production. TSPO knock-out mice were reported to be embryonic lethal. Results: TSPO knock-out mice are viable with no effects on steroidogenesis. Conclusion: TSPO is not essential for steroidogenesis and is not necessary for sustaining life. Significance: This study rectifies a serious inaccuracy in the current understanding that is critical for treating steroid hormone disorders.

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Section: Discussionmentioning

confidence: 64%

Peripheral Benzodiazepine Receptor/Translocator Protein Global Knock-out Mice Are Viable with No Effects on Steroid Hormone Biosynthesis

Morohaku

Manna

et al. 2014

Journal of Biological Chemistry

208

199

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“…These results provided compelling genetic evidence that TSPO physiology is not associated with steroidogenesis. However, this did not agree with TSPO pharmacology, as TSPO binding chemicals are reported to induce steroid hormone production (17,18,25).…”

mentioning

confidence: 74%

PK11195 Effect on Steroidogenesis Is Not Mediated Through the Translocator Protein (TSPO)

Zhao

Stocco

et al. 2015

Endocrinology

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Translocator protein (TSPO) is a mitochondrial outer membrane protein of unknown function with high physiological expression in steroidogenic cells. Using TSPO gene-deleted mice, we recently demonstrated that TSPO function is not essential for steroidogenesis. The first link between TSPO and steroidogenesis was established in studies showing modest increases in progesterone production by adrenocortical and Leydig tumor cell lines after treatment with PK11195. To reconcile discrepancies between physiological and pharmacological interpretations of TSPO function, we generated TSPO-knockout MA-10 mouse Leydig tumor cells (MA-10:TspoΔ/Δ) and examined their steroidogenic potential after exposure to either dibutyryl-cAMP or PK11195. Progesterone production in MA-10:TspoΔ/Δ after dibutyryl-cAMP was not different from control MA-10:Tspo+/+ cells, confirming that TSPO function is not essential for steroidogenesis. Interestingly, when treated with increasing concentrations of PK11195, both control MA-10:Tspo+/+ cells and MA-10:TspoΔ/Δ cells responded in a similar dose-dependent manner showing increases in progesterone production. These results show that the pharmacological effect of PK11195 on steroidogenesis is not mediated through TSPO.

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“…Moreover, FGIN-1-27, a high affinity TSPO drug ligand induced acute T formation in vivo both in control and Cetrorelix-treated rats, although to a lesser extent than TVS167, in agreement with recent findings in aged Brown-Norway rat Leydig cells, a model of male hypogonadism. 40 Although the signal transduction mechanisms mediating the effect of LH on Leydig cell steroidogenesis are well known, this work suggests that alternative mechanisms via intracellular peptide mediators may be involved in the production of T. The presence of such natural intracellular peptides able to regulate protein-protein interactions and cell signal transduction was recently demonstrated. 41,42 Homo sapiens, Mus musculus, and Rattus norvegicus 14-3-3ε and VDAC1 proteins showed high degrees of homology.…”

Section: Discussionmentioning

confidence: 98%

Induction of Androgen Formation in the Male by a TAT-VDAC1 Fusion Peptide Blocking 14-3-3ɛ Protein Adaptor and Mitochondrial VDAC1 Interactions

et al. 2014

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Low testosterone (T), a major cause of male hypogonadism and infertility, is linked to mood changes, fatigue, osteoporosis, reduced bone-mass index, and aging. The treatment of choice, T replacement therapy, has been linked with increased risk for prostate cancer and luteinizing hormone (LH) suppression, and shown to lead to infertility, cardiovascular diseases, and obesity. Alternate methods to induce T with lower side effects are desirable. In search of the mechanisms regulating T synthesis in the testes, we identified the 14-3-3ɛ protein adaptor as a negative regulator of steroidogenesis. Steroidogenesis begins in mitochondria. 14-3-3ɛ interacts with the outer mitochondrial membrane voltage-dependent anion channel (VDAC1) protein, forming a scaffold that limits the availability of cholesterol for steroidogenesis. We report the development of a tool able to induce endogenous T formation. Peptides able to penetrate testes conjugated to 14-3-3ɛ site of interaction with VDAC1 blocked 14-3-3ɛ-VDAC1 interactions while at the same time increased VDAC1-translocator protein (18 kDa) interactions that induced steroid formation in rat testes, leading to increased serum T levels. These peptides rescued intratesticular and serum T formation in adult male rats treated with gonadotropin-releasing hormone antagonist, which dampened LH and T production.

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Drug Ligand-Induced Activation of Translocator Protein (TSPO) Stimulates Steroid Production by Aged Brown Norway Rat Leydig Cells

Cited by 57 publications

References 69 publications

Peripheral Benzodiazepine Receptor/Translocator Protein Global Knock-out Mice Are Viable with No Effects on Steroid Hormone Biosynthesis

Peripheral Benzodiazepine Receptor/Translocator Protein Global Knock-out Mice Are Viable with No Effects on Steroid Hormone Biosynthesis

PK11195 Effect on Steroidogenesis Is Not Mediated Through the Translocator Protein (TSPO)

Induction of Androgen Formation in the Male by a TAT-VDAC1 Fusion Peptide Blocking 14-3-3ɛ Protein Adaptor and Mitochondrial VDAC1 Interactions

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