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Horm Metab Res 2008; 40(11): 819-826
DOI: 10.1055/s-0028-1082042
DOI: 10.1055/s-0028-1082042
Humans, Clinical
© Georg Thieme Verlag KG Stuttgart · New York
Enzyme Immunoassay of Testosterone, 17β-Estradiol, and Progesterone in Perspiration and Urine of Preadolescents and Young Adults: Exceptional Levels in Men's Axillary Perspiration
Further Information
Publication History
received 11.01.2008
accepted 03.04.2008
Publication Date:
18 August 2008 (online)
Abstract
Enzyme immunoassays for testosterone, 17β-estradiol, and progesterone were validated for human facial and axillary perspiration and compared to levels in urine. In study 1, these assays were applied to samples from preadolescent girls and boys and young women and men. Men's axillary perspiration contained substantially higher levels of steroids than seen in other substrates from men or in any sample from women, boys, and girls. Male axillary steroid levels were very variable across individuals, and on average they exceeded levels in facial perspiration by 90-fold for testosterone and 45-fold for estradiol. Men's urinary testosterone also exceeded urinary levels of the other subjects. In study 2, axillary perspiration, urine, and saliva were collected from young men. Substantial axillary levels of testosterone and estradiol were again observed. Correlations of the same hormone among the different substrates were generally very low, except for a small correlation between estradiol levels measured in axillary perspiration and urine in study 2. High unconjugated steroid content in men's axillary excretions could, if absorbed by women during intimacy, be implicated in pheromonal activity.
Key words
perspiration - axillary - urine - testosterone - 17β-estradiol - progesterone - pheromones
References
- 1 Carroll JB, Abbott DH, George LM, Hindle JE, Martin RD. Urinary endocrine monitoring of the ovarian cycle and pregnancy in Goeldi's monkey (Callimico goeldii). J Reprod Fertil. 1990; 89 149-161
- 2 Graham LH, Goodrowe KL, Raeside KL, Liptrap RM. Non-invasive monitoring of ovarian function in several felid species by measurement of fecal estradiol-17β and progestins. Zoo Biol. 1995; 14 223-237
- 3 deCatanzaro D, Muir C, Beaton E, Jetha M, Nadella K. Enzymeimmunoassay of oestradiol, testosterone and progesterone in urine samples from female mice before and after insemination. Reproduction. 2003; 126 407-414
- 4 deCatanzaro D, Muir C, Beaton EA, Jetha M. Non-invasive repeated measurement of urinary progesterone, 17β-estradiol, and testosterone in developing, cycling, pregnant, and postpartum female mice. Steroids. 2004; 69 687-696
- 5 Muir C, Vella E, Pisani N, deCatanzaro D. Enzyme immunoassay of 17β-estradiol, estrone conjugates, and testosterone in urinary and fecal samples from male and female mice. Horm Metab Res. 2001; 33 653-658
- 6 Carré J, Muir C, Belanger J, Putnam SK. Pre-competition hormonal and psychological levels of elite hockey players: Relationship to the ‘home advantage’. Physiol Behav. 2006; 89 392-398
- 7 Vaillancourt T, Duku E, deCatanzaro D, MacMillan H, Muir C, Schmidt LA. Variation in hypothalamic-pituitary-adrenal axis activity among bullied and non-bullied children. Agg Behav. 2008; 34 294-305
- 8 Stefanczyk-Krzymowska S, Krzymowski T, Grzegorzewski W, Wasowska B, Skipor J. Humoral pathway for local transfer of the priming pheromone androstenol from the nasal cavity to the brain and hypophysis in anaesthetized gilts. Exp Physiol. 2000; 85 801-809
- 9 Vella E, deCatanzaro D. Novel male mice show gradual decline in the capacity to disrupt early pregnancy and in urinary excretion of testosterone and 17β-estradiol during the weeks immediately following castration. Horm Metab Res. 2001; 33 681-686
- 10 deCatanzaro D, Beaton EA, Khan A, Vella E. Urinary oestradiol and testosterone levels from novel male mice approach values sufficient to disrupt early pregnancy in nearby inseminated females. Reproduction. 2006; 132 309-317
- 11 Beaton EA, Khan A, deCatanzaro D. Urinary sex steroids during sexual development in female mice and in proximate novel males. Horm Metab Res. 2006; 38 501-506
- 12 Bensafi M, Brown WM, Tsutsui T, Mainland JD, Johnson BN, Bremner EA, Young N, Mauss I, Ray B, Gross J, Richards J, Stappen I, Levenson RW, Sobel N. Sex-steroid derived compounds induce sex-specific effects on autonomic nervous system function in humans. Behav Neurosci. 2003; 117 1125-1134
- 13 Jacob S, MacClintock MK. Psychological state and mood effects of steroidal chemosignals in women and men. Horm Behav. 2000; 37 57-78
- 14 Savic I, Berglund H, Gulyas B, Roland P. Smelling of odorous sex hormone-like compounds causes sex-differentiated hypothalamic activations in humans. Neuron. 2001; 31 661-668
- 15 Stern K, MacClintock MK. Regulation of ovulation by human pheromones. Nature. 1998; 392 177-179
- 16 Wyart C, Webster W, Chen JH, Wilson SR, MacClary A, Khan RM, Sobel N. Smelling a single component of male sweat alters levels of cortisol in women. J Neurosci. 2007; 27 1261-1265
- 17 Brooksbank BW. Labelling of steroids in axillary sweat after administration of 3H-delta5-pregnenolone and 14C-progesterone to a healthy man. Experientia. 1970; 26 1012-1014
- 18 Barth JH, Kealey T. Androgen metabolism by isolated human axillary apocrine glands in hidradenitis suppurativa. Br J Dermatol. 1991; 125 304-308
- 19 Takayasu S, Wakimoto H, Itami S, Sano S. Activity of testosterone 5 alpha-reductase in various tissues of human skin. J Invest Dermatol. 1980; 74 187-191
- 20 Rothardt G, Beier K. Peroxisomes in the apocrine sweat glands of the human axilla and their putative role in pheromone production. Cell Mol Life Sci. 2001; 58 1344-1349
- 21 Zouboulis CC, Chen WC, Thornton MJ, Qin K, Rosenfield R. Sexual hormones in human skin. Horm Metab Res. 2007; 39 85-95
- 22 Munro CJ, Stabenfeldt GH, Cragun JR, Addiego LA, Overstreet JW, Lasley BL. Relationship of serum estradiol and progesterone concentrations to the excretion profiles of their major urinary metabolites as measured by enzyme immunoassay and radioimmunoassay. Clin Chem. 1991; 37 838-844
-
23 Wheater PR, Burkitt HG, Daniels VG.
Functional histology . New York: Churchill Livingstone 1979 - 24 Elias SG, Onland-Moret NC, Peeters PH, Rinaldi S, Kaaks R, Grobbee DE, Noord PA Van. Urinary endogenous sex hormone levels in postmenopausal women after caloric restriction in young adulthood. Br J Cancer. 2004; 90 115-117
- 25 Onland-Moret NC, Kaaks R, Noord PA van, Rinaldi S, Key T, Grobbee DE, Peeters PH. Urinary endogenous sex hormone levels and the risk of postmenopausal breast cancer. Br J Cancer. 2003; 88 1394-1399
-
26 Bernstein IS, Gordon TP, Rose RM. The interactions of hormones, behavior, and social context in nonhuman primates. In: Svare BB, ed.
Hormones and aggressive behavior . New York: Plenum Press 1983: 535-561 - 27 Macrides F, Bartke A, Dalterio S. Strange females increase plasma testosterone levels in male mice. Science. 1975; 189 189-191
- 28 Gower DB, Mallet AI, Watkins WJ, Wallace LM, Calame JP. Capillary gas chromatography with chemical ionization negative ion mass spectrometry in the identification of odorous steroids formed in metabolic studies of the sulphates of androsterone, DHA and 5α-androst-16-en-3β-ol with human axillary bacterial isolates. J Steroid Biochem Mol Biol. 1997; 63 81-99
- 29 Goldstat R, Briganti E, Tran J, Wolfe R, Davis SR. Transdermal testosterone therapy improves well-being, mood, and sexual function in premenopausal women. Menopause. 2003; 10 390-398
- 30 Reynolds PL. Do women with impaired sexual function following oophorectomy benefit from transdermal testosterone at a physiologic dose?. J Fam Pract. 2000; 49 1148
- 31 Dobs AS, Matsumoto AM, Wang C, Kipnes MS. Short-term pharmacokinetic comparison of a novel testosterone buccal system and a testosterone gel in testosterone deficient men. Curr Med Res Opin. 2004; 20 729-738
- 32 Cohn BA. In search of human skin pheromones. Arch Dermatol. 1994; 130 1048-1051
- 33 Blauer M, Vaalasti A, Pauli SL, Ylikomi T, Joensuu T, Tuohimaa P. Location of androgen receptor in human skin. J Invest Dermatol. 1991; 97 264-268
- 34 Patel MV, MacKay IA, Burrin JM. Transcriptional regulators of steroidogenesis, DAX-1 and SF-1, are expressed in human skin. J Invest Dermatol. 2001; 117 1559-1165
- 35 Grosser BI, Monti-Bloch L, Jennings-White C, Berliner DL. Behavioral and electrophysiological effects of androstadienone, a human pheromone. Psychoneuroendocrinology. 2000; 25 289-299
- 36 Knecht M, Lundstrom JN, Witt M, Huttenbrink KB, Heilmann S, Hummel T. Assessment of olfactory function and androstenone odor thresholds in humans with or without functional occlusion of the vomeronasal duct. Behav Neurosci. 2003; 117 1135-1141
- 37 Dulac C, Torello AT. Molecular detection of pheromone signals in mammals: from genes to behaviour. Nat Rev Neurosci. 2003; 4 551-562
- 38 Gower DB, Holland KT, Mallet AI, Rennie PJ, Watkins WJ. Comparison of 16-androstene steroid concentrations in sterile apocrine sweat and axillary secretions: Interconversions of 16-androstenes by the axillary microflora – a mechanism for axillary odour production in man?. J Steroid Biochem Mol Biol. 1994; 48 409-418
- 39 Jacob S, Kinnunen LH, Metz J, Cooper M, MacClintock MK. Sustained human chemosignal unconsciously alters brain function. Neuroreport. 2001; 12 2391-2394
- 40 Jacob S, Hayreh DJ, MacClintock MK. Context-dependent effects of steroid chemosignals on human physiology and mood. Physiol Behav. 2001; 74 15-27
- 41 deCatanzaro D, Baptista MAS, Vella ES. Administration of minute quantities of 17β-estradiol on the nasal area terminates early pregnancy in inseminated female mice. Pharmac Biochem Behav. 2001; 69 503-509
Correspondence
C. C. Muir
Centre for Neuroscience
Department of Psychology
Brock University
St. Catharines
Ontario L2S 3A1
Canada
Email: cmuir@brocku.ca