Presentation Date

13-10-2022 12:00 AM

Description

Alcohol induces deleterious effects on the quantity and quality of bone in the skeleton. The mechanism of these effects is believed to be through increased concentrations of reactive oxygen species (ROS) within bone cells. Hydrogen peroxide (H2O2) is a form of ROS that is converted to water (H2O) and oxygen (O2) by the enzyme catalase. Our previous studies have demonstrated that nicotinamide adenine dinucleotide phosphate oxidase (NOX) enzymes 2 and 4 are contributors of ROS within the cellular environment of bone; however, selective knockout of these enzymes did not lead to complete protection against alcohol’s inhibition of osteoblastogenesis and upregulation of osteoclastogenesis. This led to speculation that mitochondrial derived ROS also contributes to increased dysregulation of bone in ethanol (EtOH) exposure, due to the elimination of alcohol’s effects with addition of the glutathione precursor N-acetylcysteine (NAC). Also, recent studies demonstrated mitochondrial catalase (mCAT) overexpression was protective against skeletal senescence mediated by H2O2. We subjected wildtype and mCAT overexpressed mice to a four-day binge ethanol model previously shown to replicate the chronic negative effects of alcohol. Genotypes were confirmed by collecting tail tips. QRT-PCR analysis of femur shaft and marrow RNA was used to determine the concentrations of osteoblast, osteoclast, and adipogenic markers within the bone. Procollagen 1a1 concentration was determined by running an ELISA assay on serum. Gene expression of osteoblast markers Col1a1 (p=.008) and Smpd3 (p

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Oct 13th, 12:00 AM

The Effects of Mitochondrial Catalase Overexpression on Alcohol-Induced Skeletal Toxicity

Alcohol induces deleterious effects on the quantity and quality of bone in the skeleton. The mechanism of these effects is believed to be through increased concentrations of reactive oxygen species (ROS) within bone cells. Hydrogen peroxide (H2O2) is a form of ROS that is converted to water (H2O) and oxygen (O2) by the enzyme catalase. Our previous studies have demonstrated that nicotinamide adenine dinucleotide phosphate oxidase (NOX) enzymes 2 and 4 are contributors of ROS within the cellular environment of bone; however, selective knockout of these enzymes did not lead to complete protection against alcohol’s inhibition of osteoblastogenesis and upregulation of osteoclastogenesis. This led to speculation that mitochondrial derived ROS also contributes to increased dysregulation of bone in ethanol (EtOH) exposure, due to the elimination of alcohol’s effects with addition of the glutathione precursor N-acetylcysteine (NAC). Also, recent studies demonstrated mitochondrial catalase (mCAT) overexpression was protective against skeletal senescence mediated by H2O2. We subjected wildtype and mCAT overexpressed mice to a four-day binge ethanol model previously shown to replicate the chronic negative effects of alcohol. Genotypes were confirmed by collecting tail tips. QRT-PCR analysis of femur shaft and marrow RNA was used to determine the concentrations of osteoblast, osteoclast, and adipogenic markers within the bone. Procollagen 1a1 concentration was determined by running an ELISA assay on serum. Gene expression of osteoblast markers Col1a1 (p=.008) and Smpd3 (p