Larry E. Estlack scite author profile

Heart mitochondria from heterozygous (Sod2(-/+)) knockout mice have a 50% reduction in manganese superoxide dismutase (MnSOD) activity. The decrease in MnSOD activity was associated with increased mitochondrial oxidative damage as demonstrated by a decrease in the activities of iron sulfhydryl proteins sensitive to oxygen stress (aconitase and reduced nicotinamide adenine dinucleotide-oxidoreductase). Mitochondrial function was altered in the Sod2(-/+) mice, as shown by decreased respiration by complex I and an increase in the sensitivity of the permeability transition to induction by calcium and t-butylhydroperoxide. The increased induction of the permeability transition in heart mitochondria from Sod2(-/+.)mice was associated with increased release of cytochrome c and an increase in DNA fragmentation. Cardiomyocytes isolated from neonatal Sod2(-/+) and Sod2(-/-) mice were more sensitive to cell death than cardiomyocytes from Sod2(+/+) mice after t-butylhydroperoxide treatment, and this increased sensitivity was prevented by inhibiting the permeability transition with cyclosporin A. These experiments demonstrate that MnSOD may play an important role in the induction of the mitochondrial pathway of apoptosis in the heart, and this appears to occur primarily through the permeability transition.

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Multiple deficiencies in antioxidant enzymes in mice result in a compound increase in sensitivity to oxidative stress

Remmen

Sabia

et al. 2004

Free Radical Biology and Medicine

115

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Analysis of plasma protein and lipoprotein synthesis in long-term primary cultures of baboon hepatocytes maintained in serum-free medium

Lanford

Carey

Estlack

et al. 1989

In Vitro Cell Dev Biol

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The analysis of lipoprotein synthesis and secretion in primary hepatocytes has been restricted by the short-term viability and low proliferative response of hepatocytes in vitro. During this investigation a serum-free medium formulation was developed that supports long-term maintenance (greater than 70 d) and active proliferation of primary baboon hepatocytes. Examination of proliferating cells by electron microscopy revealed a distinctive hepatocyte ultrastructure including intercellular bile canaliculi and numerous surface microvilli. High levels of secreted apolipoproteins A-I and E were detected in the tissue culture medium by gel electrophoresis and immunoblot analysis. Immunoprecipitation of proteins from [35S]-methionine labeled tissue culture medium revealed the synthesis and secretion of numerous plasma proteins. Metabolic labeling of cells with [35S]-methionine followed by single-spin density gradient flotation of the media demonstrated that apolipoproteins were being secreted in the form of lipoprotein particles with buoyant densities corresponding to the very low density lipoprotein and low density lipoprotein range, and to the high density lipoprotein range. The labeled apolipoproteins included Bh, E, and A-I. This system for primary hepatocyte culture should prove very useful in future investigations on the regulation of lipoprotein production by hepatocytes.

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Intracellular processing of apo(a) in primary baboon hepatocytes

White

Rainwater

Hixson

et al. 1994

Chemistry and Physics of Lipids

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Nanosecond pulsed electric fields modulate the expression of Fas/CD95 death receptor pathway regulators in U937 and Jurkat Cells

Estlack

Roth

Thompson³

et al. 2014

Apoptosis

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In this publication, we demonstrate that exposure of Jurkat and U937 cells to nanosecond pulsed electrical fields (nsPEF) can modulate the extrinsic-mediated apoptotic pathway via the Fas/CD95 death receptor. An inherent difference in survival between these two cell lines in response to 10 ns exposures has been previously reported (Jurkat being more sensitive to nsPEF than U937), but the reason for this sensitivity difference remains unknown. We found that exposure of each cell line to 100, 10 ns pulses at 50 kV/cm caused a marked increase in expression of cFLIP (extrinsic apoptosis inhibitor) in U937 and FasL (extrinsic apoptosis activator) in Jurkat, respectively. Measurement of basal expression levels revealed an inherent difference between U937 cells, having a higher expression of cFLIP, and Jurkat cells, having a higher expression of FasL. From these data, we hypothesize that the sensitivity difference between the cells to nsPEF exposure may be directly related to expression of extrinsic apoptotic regulators. To validate this hypothesis, we used siRNA to knockdown cFLAR (coding for cFLIP protein) expression in U937, and FasL expression in Jurkat and challenged them to 100, 10 ns pulses at 150 kV/cm, a typical lethal dose. We observed that U937 survival was reduced nearly 60% in the knockdown population while Jurkat survival improved ~40%. These findings support the hypothesis that cell survival following 10 ns pulse exposures depends on extrinsic apoptotic regulators. Interestingly, pretreatment of U937 with a 100-pulse, 50 kV/cm exposure (to amplify cFLAR expression) significantly reduced the lethality of a 150 kV/cm, 100-pulse exposure applied 24 h later. From these data, we conclude that the observed survival differences between cells, exposed to 10 ns pulsed electric fields, is due to inherent cell biochemistry rather than the biophysics of the exposure itself. Understanding cell sensitivity to nsPEF may provide researchers/clinicians with a predicable way to control or avoid unintended cell death during nsPEF exposure.

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Larry E. Estlack

Knockout mice heterozygous forSod2show alterations in cardiac mitochondrial function and apoptosis

Multiple deficiencies in antioxidant enzymes in mice result in a compound increase in sensitivity to oxidative stress

Analysis of plasma protein and lipoprotein synthesis in long-term primary cultures of baboon hepatocytes maintained in serum-free medium

Intracellular processing of apo(a) in primary baboon hepatocytes

Nanosecond pulsed electric fields modulate the expression of Fas/CD95 death receptor pathway regulators in U937 and Jurkat Cells

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