A Requirement for Metamorphic Interconversion in the Antimicrobial Activity of Chemokine XCL1
Chemokines make up a superfamily of ∼50 small secreted proteins (8-12 kDa) involved in a host of physiological processes and disease states, with several previously shown to have direct antimicrobial activity comparable to that of defensins in efficacy. XCL1 is a unique metamorphic protein that interconverts between the canonical chemokine fold and a novel all-β-sheet dimer. Phylogenetic analysis suggests that, within the chemokine family, XCL1 is most closely related to CCL20, which exhibits antibacterial activity. The in vitro antimicrobial activity of WT-XCL1 and structural variants was quantified using a radial diffusion assay (RDA) and in solution bactericidal assays against Gram-positive and Gram-negative species of bacteria. Comparisons of WT-XCL1 with variants that limit metamorphic interconversion showed a loss of antimicrobial activity when restricted to the conserved chemokine fold. These results suggest that metamorphic folding of XCL1 is required for potent antimicrobial activity.
One in 8 women will develop breast cancer in their lifetime. Yet, the burden of disease is greater in Black women. Black women have a 40% higher mortality rate compared to White women, and a higher incidence of breast cancer at age 40 and younger. While the underlying cause of this disparity is multifactorial, exposure to endocrine disrupting chemicals (EDCs) in hair and other personal care products has been associated with an increased risk of breast cancer. Parabens are known EDCs that are commonly used as preservatives in hair and other personal care products, and Black women are disproportionately exposed to products containing parabens. Studies have shown that parabens impact breast cancer cell proliferation, death, migration/invasion, and metabolism, as well as gene expression in vitro. However, these studies were conducted using cell lines of European ancestry; to date, no studies have utilized breast cancer cell lines of West African ancestry to examine the effects of parabens on breast cancer progression. Like breast cancer cell lines with European ancestry, we hypothesize that parabens promote pro-tumorigenic effects in breast cancer cell lines of West African ancestry. Luminal breast cancer cell lines with West African ancestry (HCC1500) and European ancestry (MCF-7) were treated with biologically relevant doses of methylparaben, propylparaben, and butylparaben. Following treatment, estrogen receptor target gene expression and cell viability were examined. We observed altered estrogen receptor target gene expression and cell viability that was paraben- and cell-line specific. This study provides greater insight into the tumorigenic role of parabens in the progression of breast cancer in Black women.
Community-based participatory research (CBPR) has been shown to be an effective methodology for translating research findings into community solutions. CBPR is known by many names including participatory action research, community-based research, and community-to-bench model 1,2. Despite the variations in terminology, the principles of CBPR require collaboration or partnership between the community and the academy across the research continuum. Israel et al. define CBPR as active involvement of community members from research conceptualization to dissemination of findings with a focus on reducing social and environmental inequities through interventions and policy change3. The Bench to Community Initiative embodies the principles of CBPR. We engage stakeholders across multiple disciplines with the goal of disseminating interventions to reduce Black women’s breast cancer risk associated with exposure to harmful chemicals in personal care products.
In the United States, Black women are 39% more likely to die from breast cancer compared to White women (AACR Cancer Disparities Progress Report 2020). Furthermore, Black women are at a higher risk of developing breast cancer under the age of 40 than any other racial or ethnic group. While the underlying cause of these disparities is multifactorial, exposure to endocrine disrupting chemicals (EDCs) in hair and personal care products has been associated with increased risk of breast cancer. Parabens are known EDCs that are commonly used as preservatives in hair and other personal care products. The Environmental Working Group scores methylparaben (MP), propylparaben (PP), and butylparaben (BP) moderate (MP) to high (BP and PP) on a hazardous scale of chemicals found in personal care products. Furthermore, these parabens are restricted in personal care products with set maximum concentration standards in Japan, the European Union, and Southeast Asia. Studies have shown that parabens impact breast cancer cell proliferation, death, migration/invasion, and metabolism, as well as gene expression in vitro. However, these studies were conducted using cell lines of European ancestry; to date, no studies have utilized breast cancer cell lines of West African ancestry to examine effects of parabens. We hypothesize that, like what has been shown for breast cancer cell lines with European ancestry, parabens will promote pro-tumorigenic effects in breast cancer cell lines with West African ancestry. To test this hypothesis, we treated MCF-7 (European ancestry) and HCC1500 (West African ancestry) luminal breast cancer cell lines with biologically relevant doses of either MP, PP, or BP. We also co-treated with the estrogen receptor (ER) antagonist ICI 182,780 to determine whether observed effects are mediated by ER. We found BP increases HCC1500 cell viability, but not MCF-7 cell viability. This effect was not blocked by co-treatment with ICI 182,780. We also observed that BP and PP, but not MP, increased expression of estrogen-regulated genes in both MCF-7 and HCC1500. The increase in gene expression was reduced with co-treatment of ICI 182,780 in both cell lines, suggesting that these effects are ER-mediated. Preliminary studies suggest that parabens promote migration of both cell lines, with a potentially greater effect on HCC1500 cells. Taken together, these data demonstrate that parabens, particularly BP and PP, promote pro-tumorigenic effects in diverse luminal breast cancer cell lines. These findings have future translational relevance as we are part of a community-led initiative called Bench to Community. Bench to Community brings together basic researchers in endocrinology and social-behavioral scientists, community stakeholders including breast cancer survivors to develop interventions to reduce adverse exposures to EDCs in hair and other personal care products in Black women. Presentation: Sunday, June 12, 2022 12:42 p.m. - 12:47 p.m., Monday, June 13, 2022 12:30 p.m. - 2:30 p.m.
One in 8 women will develop breast cancer in their lifetime. Yet, the burden of disease is greater in Black women. Black women have a 40% higher mortality rate compared to White women, and a higher incidence of breast cancer at age 40 and younger. While the underlying cause of this disparity is multifactorial, exposure to endocrine disrupting chemicals (EDCs) in hair and other personal care products has been associated with an increased risk of breast cancer. Parabens are known EDCs that are commonly used as preservatives in hair and other personal care products, and Black women are disproportionately exposed to products containing EDCs. Studies have shown that parabens impact breast cancer cell proliferation, death, migration/invasion, and metabolism, as well as gene expression in vitro. However, these studies were conducted using cell lines of European ancestry; to date, no studies have utilized breast cancer cell lines of West African ancestry to examine the effects of parabens on breast cancer progression. Like breast cancer cell lines with European ancestry, we hypothesize that parabens promote pro-tumorigenic effects in breast cancer cell lines of West African ancestry. Luminal breast cancer cell lines with West African ancestry (HCC1500) and European ancestry (MCF-7) were treated with biologically relevant doses of methylparaben, propylparaben, and butylparaben. Following treatment, estrogen receptor target gene expression and cell viability were examined. We observed altered estrogen receptor target gene expression and cell viability that was paraben- and cell-line specific. This study provides greater insight into the tumorigenic role of parabens in the progression of breast cancer in Black women.
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