Charles R. Filburn scite author profile

We sought to understand the relationship between reactive oxygen species (ROS) and the mitochondrial permeability transition (MPT) in cardiac myocytes based on the observation of increased ROS production at sites of spontaneously deenergized mitochondria. We devised a new model enabling incremental ROS accumulation in individual mitochondria in isolated cardiac myocytes via photoactivation of tetramethylrhodamine derivatives, which also served to report the mitochondrial transmembrane potential, ΔΨ. This ROS accumulation reproducibly triggered abrupt (and sometimes reversible) mitochondrial depolarization. This phenomenon was ascribed to MPT induction because (a) bongkrekic acid prevented it and (b) mitochondria became permeable for calcein (∼620 daltons) concurrently with depolarization. These photodynamically produced “triggering” ROS caused the MPT induction, as the ROS scavenger Trolox prevented it. The time required for triggering ROS to induce the MPT was dependent on intrinsic cellular ROS-scavenging redox mechanisms, particularly glutathione. MPT induction caused by triggering ROS coincided with a burst of mitochondrial ROS generation, as measured by dichlorofluorescein fluorescence, which we have termed mitochondrial “ROS-induced ROS release” (RIRR). This MPT induction/RIRR phenomenon in cardiac myocytes often occurred synchronously and reversibly among long chains of adjacent mitochondria demonstrating apparent cooperativity. The observed link between MPT and RIRR could be a fundamental phenomenon in mitochondrial and cell biology.

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Mitochondrial biogenesis during cellular differentiation

Mathieu-Costello

Tsuchiya

et al. 1997

American Journal of Physiology-Cell Physiology

196

139

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Mitochondrial biogenesis was studied during differentiation of two immortalized cell lines (C2C12, 3T3) with enzyme measurements, Northern blots, and quantitative ultrastructure. Citrate synthase, isocitrate dehydrogenase, and 3-hydroxyacyl-CoA dehydrogenase (nuclear encoded, mitochondrial matrix location) showed linear, four- to sixfold increases in enzymatic activity in C2C12 cells but increased exponentially in 3T3 cells. Cytochrome oxidase and NADH dehydrogenase (nuclear and mitochondrial encoded, cristae location) increased to a lesser extent and with a pattern dissimilar to the first group. Northern blots and activity of succinate dehydrogenase (cristae location but entirely nuclear encoded) suggested the groupings were based on location of the genes rather than the mature enzyme. However, quantitative electron microscopy and comparisons with adult tissue suggested that mitochondrial ultrastructure can influence the change in cristae enzymes. Cristae surface area per unit mitochondrial volume and per unit cell volume increased much less than did cristae enzymes. Available space on the inner membrane may become limiting and account for some aspects of the pattern of change in electron transport enzymes during differentiation.

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Homogenous repair of singlet oxygen-induced DNA damage in differentially transcribed regions and strands of human mitochondrial DNA

Anson

Croteau

Stierum

et al. 1998

Nucleic Acids Research

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Photoactivated methylene blue was used to damage purified DNA and the mitochondrial DNA (mtDNA) of human fibroblasts in culture. The primary product of this reaction is the DNA lesion 7-hydro-8-oxo-deoxyguanosine (8-oxo-dG). The DNA damage was quantitated using Escherichia coli formamidopyrimidine DNA glycosylase (Fpg) in a gene-specific damage and repair assay. Assay conditions were refined to give incision at all enzyme-sensitive sites with minimal non-specific cutting. Cultured fibroblasts were exposed to photoactivated methylene blue under conditions that would produce an average of three oxidative lesions per double-stranded mitochondrial genome. Within 9 h, 47% of this damage had been removed by the cells. This removal was due to repair rather than to replication, cell loss or degradation of damaged genomes. The rate of repair was measured in both DNA strands of the frequently transcribed ribosomal region of the mitochondrial genome and in both strands of the non-ribosomal region. Fpg-sensitive alkali-resistant oxidative base damage was efficiently removed from human mtDNA with no differences in the rate of repair between strands or between two different regions of the genome that differ substantially with regard to transcriptional activity.

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Phorbol ester and dioctanoylglycerol stimulate membrane association of protein kinase C and have a negative inotropic effect mediated by changes in cytosolic Ca2+ in adult rat cardiac myocytes.

Capogrossi

Kaku

Filburn

et al. 1990

Circulation Research

123

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We used left ventricular myocytes from adult rats to investigate the effect of 4 beta-phorbol 12-myristate 13-acetate (PMA) and of sn-1,2-dioctanoylglycerol (DiC-8) on the membrane association of protein kinase C (PKC), cytosolic [Ca2+], (Cai) homeostasis, and the contractile properties of single cardiac cells. Because PKC activity is known to be highly Ca2+ sensitive, the K+ concentration of the bathing medium was raised from 5 to 30 mM in some experiments, a perturbation known to depolarize the cell and increase Cai. In cell suspensions both PMA (3 x 10(-10) and 3 x 10(-7) M) and DiC-8 (10(-5) and 10(-4) M) increased membrane association of PKC. The effect of PMA (10(-7) M) on PKC translocation was enhanced in 30 mM KCl compared with 5 mM KCl. During steady field stimulation at 1 Hz in 1 mM bathing [Ca2+], both PMA (10(-7) M) and DiC-8 (10(-5) M) decreased twitch amplitude to approximately 60% of control in 5 mM KCl, and the negative inotropic effect of either drug was more pronounced in 30 mM KCl than in 5 mM KCl. In single cardiac myocytes loaded with the Ca2+ indicator indo-1 and bathed in 5 mM KCl, we simultaneously measured cell length and Cai. The myofilament responsiveness to Ca2+ was assessed by the relation between contraction amplitude and the peak of the Cai transient. The negative inotropic effect of both PMA and DiC-8 was related to a diminished amplitude of the Cai transient and not to a decreased myofilament responsiveness to Ca2+. In the absence of electrical stimulation, PMA (10(-7) M) and DiC-8 (10(-5) M) decreased the frequency of contractile waves due to spontaneous Ca2+ release from the sarcoplasmic reticulum, and DiC-8 also decreased resting Cai. Thus, activation of PKC, which is thought to occur as part of the response of cardiac muscle to alpha 1-adrenergic stimulation, is associated with a negative inotropic action due to a smaller Cai transient rather than to a decrease in the myofilament responsiveness to Ca2+. These effects on the membrane association of PKC and on contractility are enhanced by cell depolarization achieved by raising [KCl] in the bathing medium.

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Contractile and biochemical correlates of β-adrenergic stimulation of the aged heart

Guarnieri¹,

Filburn²,

Zitnik³

et al. 1980

American Journal of Physiology-Heart and Circulatory Physiology

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The age dependence of contractile and associated biochemical parameters of basal- and catecholamine-stimulated myocardial contractile performance was investigated using isolated perfused septa from adult and senescent rats. Base-line maximum rate of force development (dF/dt), beta-receptor number and affinity, cAMP levels, and cAMP-dependent protein kinase activity were not different in the two age groups. During maximal isoproterenol stimulation, the increase in dF/dt was 40% less in the senescent hearts, and the cAMP levels and cAMP activation of protein kinase increased two fold but to the same extent in both age groups. The maximum contractile response to dibutyryl cAMP (DBcAMP) in the senescent was half that observed in the adult hearts. However, adult and senescent septa responded equally to an increase in perfusate [Ca2+] to 1.0 mM, which enhanced contractility to the same extent as that obtained with isoproterenol and DBcAMP in adult septa. These data taken together suggest that the factors that limit the contractile response to catecholamines in the senescent heart act subsequent to protein kinase activation but proximal to the Ca2+-troponin interaction.

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Bioavailability of a silybin–phosphatidylcholine complex in dogs

Filburn

Kettenacker

Griffin

2007

Vet Pharm & Therapeutics

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Liver dysfunction often is associated with an imbalance in the production and removal of free radicals derived from oxygen and nitrogen and has been managed clinically with antioxidant supplements, including silymarin extract derived from milk thistle. The potential for enhanced bioavailability of a phytosome complex containing phosphatidylcholine and silybin, the primary active flavonolignan in silymarin extract, was tested in dogs. A group of eight beagles (four males, four females) were dosed orally with a silybin-phosphatidylcholine complex (SPC) and a commercially available standardized silymarin extract containing equivalent levels of silybin. Dosing with the SPC resulted in Cmax, Tmax, and AUC0-24 h values (mean+/-SD) for total silybin of 1310+/-880 ng/mL, 2.87+/-2.23 h, and 11,200+/-6520 ng.h/mL, respectively; corresponding values for a standardized silymarin extract were 472+/-383 ng/mL, 4.75+/-2.82 h, and 3720+/-4970 ng.h/mL. A second, separate group of beagles were also dosed with the extract alone, yielding values of 449+/-402 ng/mL, 6.87+/-7.43 h, and 2520+/-2976 ng.h/mL. These data show that a phytosome complex of phosphatidylcholine and silybin markedly enhances bioavailability in dogs.

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Detection and quantitation by competitive PCR of an age-associated increase in a 4.8-kb deletion in rat mitochondrial DNA

Edris

Burgett

Stine

et al. 1994

Mutation Research/DNAging

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Effect of aging on striatal dopamine receptor subtypes in Wistar rats

Henry¹,

Filburn²,

Joseph³

et al. 1986

Neurobiology of Aging

103

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