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<img class="aligncenter" src="https://scx1.b-cdn.net/csz/news/800a/2021/hormonal-hazard-chemic.jpg"
alt="Hormonal hazard: Chemicals used in paints and plastics can promote breast tumor growth"
title="(A) 1-HCHPK+Tam, (B) MBB+Tam, and (C) MTMP+Tam. In a recent study, 5mg of crestor once a week researchers generated MCF-7-xenografted tumors in BALB/c nude mice and pre-treated them with tamoxifen to understand the mechanisms underlying the tumor-promoting effects of photoinitiators. Results are presented as the mean ± SD (n=5). Credit: 2021 Okayama University” width=”800″ height=”530″>
Photoinitiators are chemicals that release reactive molecules in response to UV radiation. Given these properties, photoinitiators are used in a wide range of products, including plastics, paints, inks, and adhesives. As a result, photoinitiators are present in several objects of everyday use as well as in medical products and instruments such as dental fillers and containers.
Recently, studies have demonstrated several health hazards associated with photoinitiators, raising alarms about their safety. In particular, the presence of these compounds in clinical instruments, routinely used for treating high-risk individuals such as cancer patients, has become a major cause for concern. Previous studies have shown that three photoinitiators commonly found in plastics and paints—1-HCHPK, MBB, and MTMP—show estrogen-like effects on cultured breast cancer cells, increasing their proliferation. Owing to the presence of these compounds in marketed injection solutions and the well-known link between estrogen activity and breast cancer, a thorough investigation of their effect on breast tumor growth is warranted.
Dr. Yoichi Kawasaki and Prof. Toshiaki Sendo from Okayama University in Japan sought to gain a better understanding of these effects. In their recent study published in Current Research in Toxicology, they examined how exposure to 1-HCHPK, MBB, and MTMP affected the growth of transplanted breast cancer tumors in mice. They found that all these compounds caused a faster increase in the growth of breast tumors, within 13 weeks of treatment. “This study extends our previous findings and shows that in addition to promoting the proliferation of breast cancer cells in culture, these photoinitiators also increase the growth of breast tumors in live animals. This implies that they could also potentially hasten disease progression in breast cancer patients,” explains Dr. Kawasaki, who led the study.
To understand the mechanism underlying these breast tumor-promoting effects, they pre-treated the mice with tamoxifen—a compound that prevents estrogen or estrogen-like molecules from affecting cellular processes. They found that tamoxifen pretreatment substantially decreased the toxic effects of the photoinitiators, indicating that this toxicity was mediated by estrogen receptors. “Estrogen promotes the growth of breast cancer tumors. Because tamoxifen blocks estrogen receptors, it is often used in breast cancer treatment. Our results show that the photoinitiators likely promote breast tumor growth by binding to estrogen receptors on tumor cells and initiating estrogen signaling,” clarifies Prof. Sendo.
Together, the results from the study by Dr. Kawasaki and Prof. Sendo show that 1-HCHPK, MBB, and MTMP have estrogen-like activity and could thus act as hormonal disruptions. Given the important role of estrogen in regulating reproductive function in both men and women, such disruptions could affect not only patients with breast cancer, but also healthy individuals. While the researchers intend to explore the effects of photoinitiators on reproduction in future research, the present study provides information crucial from a breast cancer management perspective and also represents an urgent call-to-action for the elimination of toxic materials from medical equipment.
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