BMP1 is expressed in the human TM. TGF-β2 induction of BMP1 may be responsible for increased processing of growth factors and ECM proteins into their mature forms, resulting in TM stiffness and resistance to ECM degradation.
FST is elevated in GTM cells and tissues. FST is known to be an inhibitor of bone morphogenetic proteins (BMPs), which, coupled with the ability of TGF-β2 to upregulate FST levels, may indicate a possible role of FST in the pathogenesis of glaucoma. These results suggest that additional endogenous molecules in human TM may regulate TGF-β2 signaling via inhibition of BMP family members.
In this perspective, we describe our experience as women of color scientists from diverse backgrounds and similar struggles embarking upon the National Heart, Lung and Blood Institute-funded program called PRIDE (Programs to Increase Diversity among Underrepresented Minorities Engaged in Health-Related Research). Under the leadership of our mentor and friend, Betty Pace, MD, a renowned and successful African American physician-scientist, the PRIDE Program was designed to address the difficulties experienced by junior-level minority investigators in establishing independent research programs and negotiating tenure and full professor status at academic institutions. The strength of PRIDE’s innovative formula was pairing us with external senior mentors and, importantly, allowing us to serve as peer mentors to each other. We believe this “Sister’s Keeper” paradigm is one solution for women to overcome their limitations and extend understandings and best practices worldwide for science, medicine, and global health. Ethn Dis. 2018;28(4):575-578; doi:10.18865/ ed.28.4.575.
Melanophores are pigmented cells that change the distribution of melanosomes, enabling animals to appear lighter or darker for camouflage, thermoregulation, and protection from ultraviolet radiation. A complex series of hormonal and neural mechanisms regulates melanophore pigment distribution, making these dynamic cells a valuable tool to screen toxicants as they rapidly respond to changes in the environment. We found that maltol, a naturally occurring flavor enhancer and fragrance agent, induces melanophore pigment aggregation in a dose-dependent manner in Xenopus laevis tadpoles.To determine if maltol affects camouflage adaptation, we placed tadpoles into maltol baths situated over either a white or a black background. Maltol induced pigment aggregation in a similar dose-dependent pattern regardless of background color. We also tested how maltol treatment compares to melatonin treatment and found that the degree of pigment aggregation induced by maltol is similar to treatment with melatonin but that maltol induces over a much longer time course. Last, maltol had no effect on mRNA expression in the brain of genes that regulate camouflage-related pigment aggregation. The present results suggest that maltol does not exert its effects via the camouflage adaptation mechanism or via melatoninrelated mechanisms. These results are the first to identify a putative toxicological effect of maltol exposure in vivo and rule out several mechanisms by which maltol may exert its effects on pigment aggregation. Environ Toxicol Chem 2020;39:381-395.
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