Gmeiner W.H.,Wake forest University |
Stuart C.H.,Molecular Medicine and Translational science |
Pardee T.S.,Wake forest University
The polymeric fluoropyrimidine F10 displays excellent anti-leukemia activity in pre-clinical models of acute myelogenous leukemia (AML) through dual targeting of thymidylate synthase and DNA topoisomerase 1. Here we report that F10 activates the extrinsic apoptotic pathway in AML cells by enhancing localization of Fas and Fas ligand (FasL) at the plasma membrane and while reducing overall lipid raft levels promotes Fas/FasL co-localization in remaining lipid rafts. The HMG-CoA synthase inhibitor simvastatin was synergistic with F10 and induced cell death via similar apoptotic processes. Our results are consistent with diverse processes activating a common apoptotic pathway characterized by reduced overall levels of lipid rafts and Fas/FasL co-localization in the plasma membrane, including in remaining lipid rafts which may play a role in both cell-survival and cell death signaling. © 2014 Elsevier Ltd. Source
Zhang T.,Section on Gerontology and Geriatric Medicine |
Pereyra A.S.,Section on Gerontology and Geriatric Medicine |
Pereyra A.S.,National University of La Plata |
Wang Z.-M.,Section on Gerontology and Geriatric Medicine |
And 13 more authors.
Loss of strength in human and animal models of aging can be partially attributed to a well-recognized decrease in muscle mass; however, starting at middle-age, the normalized force (force/muscle cross-sectional area) in the knee extensors and single muscle fibers declines in a curvilinear manner. Strength is lost faster than muscle mass and is a more consistent risk factor for disability and death. Reduced expression of the voltage sensor Ca2+ channel α1 subunit (Cav1.1) with aging leads to excitation-contraction uncoupling, which accounts for a significant fraction of the decrease in skeletal muscle function. We recently reported that in addition to its classical cytoplasmic location, fast skeletal muscle troponin T3 (TnT3) is fragmented in aging mice, and both full-length TnT3 (FL-TnT3) and its carboxyl-terminal (CT-TnT3) fragment shuttle to the nucleus. Here, we demonstrate that it regulates transcription of Cacna1s, the gene encoding Cav1.1. Knocking down TnT3 in vivo downregulated Cav1.1. TnT3 downregulation or overexpression decreased or increased, respectively, Cacna1s promoter activity, and the effect was ablated by truncating the TnT3 nuclear localization sequence. Further, we mapped the Cacna1s promoter region and established the consensus sequence for TnT3 binding to Cacna1s promoter. Systemic administration of BDA-410, a specific calpain inhibitor, prevented TnT3 fragmentation, and Cacna1s and Cav1.1 downregulation and improved muscle force generation in sedentary old mice. © 2016 The Anatomical Society and John Wiley & Sons Ltd. Source
Chilton F.H.,The Center for Botanical Lipids and Inflammatory Disease Prevention |
Murphy R.C.,University of Colorado at Denver |
Wilson B.A.,Molecular Medicine and Translational science |
Sergeant S.,The Center for Botanical Lipids and Inflammatory Disease Prevention |
And 3 more authors.
The "modern western" diet (MWD) has increased the onset and progression of chronic human diseases as qualitatively and quantitatively maladaptive dietary components give rise to obesity and destructive gene-diet interactions. There has been a three-fold increase in dietary levels of the omega-6 (n-6) 18 carbon (C18), polyunsaturated fatty acid (PUFA) linoleic acid (LA; 18:2n-6), with the addition of cooking oils and processed foods to the MWD. Intense debate has emerged regarding the impact of this increase on human health. Recent studies have uncovered population-related genetic variation in the LCPUFA biosynthetic pathway (especially within the fatty acid desaturase gene (FADS) cluster) that is associated with levels of circulating and tissue PUFAs and several biomarkers and clinical endpoints of cardiovascular disease (CVD). Importantly, populations of African descent have higher frequencies of variants associated with elevated levels of arachidonic acid (ARA), CVD biomarkers and disease endpoints. Additionally, nutrigenomic interactions between dietary n-6 PUFAs and variants in genes that encode for enzymes that mobilize and metabolize ARA to eicosanoids have been identified. These observations raise important questions of whether gene-PUFA interactions are differentially driving the risk of cardiovascular and other diseases in diverse populations, and contributing to health disparities, especially in African American populations. © 2014 by the authors; licensee MDPI, Basel, Switzerland. Source