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L Dalla Valle Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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V Toffolo Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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A Nardi Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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C Fiore Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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P Bernante Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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R Di Liddo Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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PP Parnigotto Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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L Colombo Comparative Endocrinology Laboratory, Department of Biology, University of Padova, Via U. Bassi 58/B, 35131 Padova, Italy
Department of Medical and Surgical Sciences, Endocrinology,
Surgical Pathology, University of Padova, Via Ospedale 105, 35128 Padova, Italy
Department of Pharmaceutical Sciences, University of Padova, via Marzolo 5, 35131 Padova, Italy

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Expression analysis by reverse transcriptase (RT)-PCR indicates that human adipose tissue is not likely to perform de novo synthesis of steroid hormones from cholesterol because the mRNAs of cytochromes P450scc and P450c17, and of the steroidogenic-related proteins, steroidogenic acute regulatory protein and steroidogenic factor 1, were not detected. Instead, our data support an intracrine role of adipose tissue, in which adrenal dehydroepiandrosterone sulfate (DHEA-S), the most abundant circulating androgen in man, is selectively uptaken, desulfated, and converted into bioactive androgens and estrogens. Three organic anion-transporting polypeptides-B, -D, and -E, presumably involved in DHEA-S transmembrane transport, were demonstrated at the mRNA level. While sulfotransferase expression was not found, the occurrence of steroid sulfatase (STS), converting DHEA-S to DHEA, was established at the mRNA, protein and catalytic activity levels. The 5′-rapid amplification of cDNA ends analysis showed that STS transcription in adipose tissue is regulated by the use of two promoters which differ from the prevalent placental one. The adipose transcripts contain a distinct untranslated first exon, 0a or 0b, followed by a common partially translated exon 1b, and nine other exons that are also shared by the main placental transcript. The presence of an upstream open reading frame in the new transcript variants could lead to an N-terminal divergence restricted to the cleavable signal peptide and thus not interfering with the catalytic activity of the mature STS protein. The adipose transcripts are also present in the placenta as minor isoforms. Western blotting revealed the characteristic ~64 kDa band of STS in both the placenta and adipose tissue. The specific enzymatic activity of STS in adipocytes was 118 pmol/106 cells per hour, about 50–100 times lower than in the placenta. A similar rate of [3H] DHEA-S uptake plus desulfation was measured in preadipo-cytes and adipocytes, equivalent to 40–45 pmol/106 cells per hour. Thus, an excessive accumulation of fat may out-compete other peripheral organs that are also dependent on intracrine DHEA-S utilization, especially when the adrenal production is low or declining with aging.

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