Potential Estrogenic and Antiestrogenic Activity of the Cyclic Siloxane Octamethylcyclotetrasiloxane (D4) and the Linear Siloxane Hexamethyldisiloxane (HMDS) in Immature Rats Using the Uterotrophic Assay

McKim, James M.; Wilga, Paul C.; Breslin, William J.; Plotzke, Kathy; Gallavan, Robert H.; Meeks, Robert G.

doi:10.1093/toxsci/63.1.37

Cited by 104 publications

(39 citation statements)

References 29 publications

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“…Harvey and Darbre (2004) and Harvey and Everett (2006) have noted that all types of bodycare cosmetics applied to the skin (not just underarm cosmetics) can be a source of local oestrogenic chemical input to the breast and should be considered in risk assessments. Furthermore, there are also an increasing number of other ingredients in various cosmetics that have been shown to be endocrine active or oestrogenic [for example polycyclic musks (Gomez et al, 2005;Schreurs et al, 2005), UV ¼lters (Schlumpf et al, 2001;Inui et al, 2003;Koda et al, 2005), aluminium chlorhydrate (Darbre, 2006b), triclosan (Gee et al, 2008), phthalates (Jobling et al, 1995;Harris et al, 1997;Okubo et al, 2003), cyclosiloxanes (McKim et al, 2001;He et al, 2003)] and risk assessments should take into account mixture and combined repeated exposure effects.…”

Section: Regulatory Status Of Parabensmentioning

confidence: 99%

“…Thus common coingredients in cosmetic formulations may interact in mixtures, resulting in higher skin and body burdens of parabens [and other endocrine active compounds common in cosmetics, e.g. phthalates (Jobling et al, 1995;Harris et al, 1997;Okubo et al, 2003), polycyclic musks (Gomez et al, 2005;Schreurs et al, 2005), UV ¼lters (Schlumpf et al, 2001;Inui et al, 2003;Janjua et al, 2004;Koda et al, 2005), aluminium chlorhydrate (Darbre, 2006b), triclosan (Gee et al, 2008) and cyclosiloxanes (McKim et al, 2001;He et al, 2003)]. …”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Paraben esters: review of recent studies of endocrine toxicity, absorption, esterase and human exposure, and discussion of potential human health risks

Darbre

Harvey

2008

J of Applied Toxicology

592

375

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This toxicology update reviews research over the past four years since publication in 2004 of the ¼rst measurement of intact esters of p-hydroxybenzoic acid (parabens) in human breast cancer tissues, and the suggestion that their presence in the human body might originate from topical application of bodycare cosmetics. The presence of intact paraben esters in human body tissues has now been con¼rmed by independent measurements in human urine, and the ability of parabens to penetrate human skin intact without breakdown by esterases and to be absorbed systemically has been demonstrated through studies not only in vitro but also in vivo using healthy human subjects. Using a wide variety of assay systems in vitro and in vivo, the oestrogen agonist properties of parabens together with their common metabolite ( p-hydroxybenzoic acid) have been extensively documented, and, in addition, the parabens have now also been shown to possess androgen antagonist activity, to act as inhibitors of sulfotransferase enzymes and to possess genotoxic activity. With the continued use of parabens in the majority of bodycare cosmetics, there is a need to carry out detailed evaluation of the potential for parabens, together with other oestrogenic and genotoxic co-formulants of bodycare cosmetics, to increase female breast cancer incidence, to interfere with male reproductive functions and to in½uence development of malignant melanoma which has also recently been shown to be in½uenced by oestrogenic stimulation.

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Section: Regulatory Status Of Parabensmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Paraben esters: review of recent studies of endocrine toxicity, absorption, esterase and human exposure, and discussion of potential human health risks

Darbre

Harvey

2008

J of Applied Toxicology

592

375

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“…Methylparaben, ethylparaben, n-propylparaben, n-butylparaben and isobutylparaben are the most widely used esters in consumer products and these have all now been shown to possess oestrogenic activity in assay systems in vitro and in vivo (Routledge et al, 1998;Blair et al, 2000;Hossaini et al, 2000;Jin-Sung et al, 2000;Nishihara et al, 2000;Pedersen et al, 2000;Fang et al, 2001;Okubo et al, 2001;Byford et al, 2002;Darbre et al, 2002Darbre et al, , 2003Lemini et al, 2003;summary table in Darbre and Harvey, 2008) and have been detected in human breast tumours . Further groups of oestrogenic chemicals in cosmetic products include the polycyclic musks (Gomez et al, 2005;Schreurs et al, 2005;Mori et al, 2007), UV filters (Schlumpf et al, 2001;Inui et al, 2003;Heneweer et al, 2005: Koda et al, 2005Kunz and Fent, 2006a), aluminium chlorhydrate (Darbre, 2006b), triclosan (Gee et al, 2008), phthalates (Jobling et al, 1995;Harris et al, 1997;Okubo et al, 2003) and cyclosiloxanes (Hayden and Barlow, 1972;McKim et al, 2001;He et al, 2003), all of which except the cyclosiloxanes have been measured in either breast milk or breast tissue (see Table 1 for references).…”

Section: Introductionmentioning

confidence: 99%

Oestrogenic activity of benzyl salicylate, benzyl benzoate and butylphenylmethylpropional (Lilial) in MCF7 human breast cancer cells in vitro

Charles

Darbre

2009

J of Applied Toxicology

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Benzyl salicylate, benzyl benzoate and butylphenylmethylpropional (Lilial) are added to bodycare cosmetics used around the human breast. We report here that all three compounds possess oestrogenic activity in assays using the oestrogen-responsive MCF7 human breast cancer cell line. At 3 000 000-fold molar excess, they were able to partially displace [(3)H]oestradiol from recombinant human oestrogen receptors ERalpha and ERbeta, and from cytosolic ER of MCF7 cells. At concentrations in the range of 5 x 10(-5) to 5 x 10(-4 )m, they were able to increase the expression of a stably integrated oestrogen-responsive reporter gene (ERE-CAT) and of the endogenous oestrogen-responsive pS2 gene in MCF7 cells, albeit to a lesser extent than with 10(-8 )m 17beta-oestradiol. They increased the proliferation of oestrogen-dependent MCF7 cells over 7 days, which could be inhibited by the antioestrogen fulvestrant, suggesting an ER-mediated mechanism. Although the extent of stimulation of proliferation over 7 days was lower with these compounds than with 10(-8 )m 17beta-oestradiol, given a longer time period of 35 days the extent of proliferation with 10(-4 )m benzyl salicylate, benzyl benzoate or butylphenylmethylpropional increased to the same magnitude as observed with 10(-8 )m 17beta-oestradiol over 14 days. This demonstrates that benzyl salicylate, benzyl benzoate and butylphenylmethylpropional are further chemical components of cosmetic products which give oestrogenic responses in a human breast cancer cell line in culture. Further research is now needed to investigate whether oestrogenic responses are detectable using in vivo models and the extent to which these compounds might be absorbed through human skin and might enter human breast tissues.

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“…The substance also showed weak antiestrogenic properties by partially blocking EE (ethinylestradiol) induced uterine weight increases (competitive inhibition of estrogen receptor binding or D4 acting as a partial estrogen agonist). Estrogenic and antiestrogenic effects of D4 were several orders of magnitude 50 less potent than EE, and many times less potent than the weak phytoestrogen CE [34].…”

Section: Siloxanementioning

confidence: 92%

Endocrine Disruptors as Pollutants in Marine Ecosystem: A Case Study in Egypt

Abdallah¹

2016

TOBIOTJ

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Growing populations and increasing industry and agriculture activates have increased the existence of chemicals in the aquatic environment. The variety of anthropogenic chemicals that have been identified as potential endocrine disruptors (EDCs) in the environment and the problems arising from their use as human and livestock pharmaceuticals are discussed. Sewage effluents have been identified as a source of a diverse mixture of EDCs to the aquatic environment. These waters from homes and industries include natural and synthetic hormones (estrogens, androgens), active ingredients in pharmaceuticals, metals, pesticides, personal care product additives, and industrial chemicals. Once effluents are discharged to aquatic environments, EDCs will be diluted in stream or river waters so that organisms living very close to the discharge will have the highest exposure. Aquatic organisms also readily take up and store EDCs and its metabolites. Exposure to endocrine active compounds remains poorly characterized in developing countries despite the fact that behavioral practices related to westernization have the potential to influence exposure. Thus, in Egypt for example, it is likely that women in urban areas have a higher exposure to environmental hormonal risk factors, possibly xenoestrogens (EDCs) with regards to known risk factors of uterine and breast cancer.

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Potential Estrogenic and Antiestrogenic Activity of the Cyclic Siloxane Octamethylcyclotetrasiloxane (D4) and the Linear Siloxane Hexamethyldisiloxane (HMDS) in Immature Rats Using the Uterotrophic Assay

Cited by 104 publications

References 29 publications

Paraben esters: review of recent studies of endocrine toxicity, absorption, esterase and human exposure, and discussion of potential human health risks

Paraben esters: review of recent studies of endocrine toxicity, absorption, esterase and human exposure, and discussion of potential human health risks

Oestrogenic activity of benzyl salicylate, benzyl benzoate and butylphenylmethylpropional (Lilial) in MCF7 human breast cancer cells in vitro

Endocrine Disruptors as Pollutants in Marine Ecosystem: A Case Study in Egypt

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