Oxidative Phosphorylation in Mitochondria Isolated from Chronically Stressed Dog Hearts

Stoner, Clinton D.; Ressallat, Mehdi M.; Sirak, Howard D.

doi:10.1161/01.res.23.1.87

Cited by 27 publications

(8 citation statements)

References 25 publications

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“…There is considerable controversy in the literature regarding what happens to heart mitochondria in cardiac hypertrophy (1,6,(8)(9)(10)(11)(12)(13)(14)(15). Wollenberger and his co-workers (8)(9)(10) have reported that there is a decrease in the ratio of mitochondrial to lnyofibrillar area, a 50% disappearance of mitochondrial cristae, a significantly reduced capacity to carry out oxidative phosphorylation, and a diminished level of malate dehydrogenase activity in hypertrophied, non-failing canine hearts.…”

Section: Discussionmentioning

confidence: 99%

“…It appeared possible that a similar response might occur in heart muscle subjected to an increased work load. The published results of studies relating to this question are conflicting (1,6,(8)(9)(10)(11)(12)(13)(14)(15). A considerable portion of the present study was, therefore, devoted to obtaining biochemical information, using a number of independent approaches, regarding the response of heart mitochondria to cardiac hypertrophy.…”

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confidence: 98%

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Hypertrophied Non-Failing Rat Heart: PARTIAL BIOCHEMICAL CHARACTERIZATION

Dart

Holloszy

1969

Circulation Research

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Cardiac hypertrophy was induced in rats by constructing an arteriovenous fistula. Heart weights approximately doubled in 7.5 weeks. The levels of activity, expressed per gram of heart, of a variety of enzymes of the mitochondrial respiratory chain and of the citric acid cycle, as well as the concentrations of cytochrome c and of mitochondrial protein, were the same in the hypertrophied and control hearts. Similarly, the capacity of whole heart homogenate to oxidize pyruvate was unaltered in hypertrophy.There was also no change in the levels of activity of cytochrome oxidase and malate dehydrogenase, or in the concentration of cytochrome c in early hypertrophy (3 to 10 days after construction of an A-V fistula). These results suggest that cardiac mitochondria increase in parallel with the other components of the myocardial cell.The levels of activity, per gram of heart, of creatine phosphokinase and adenylate kinase, and of the rate-limiting enzymes of glycolysis and glycogenolysis, were the same in the hypertrophied and the control hearts.The above findings suggest that the capacity, per gram of heart, for regenerating ATP, both aerobically and anaerobically, is unchanged in the nonfailing, hypertrophied heart. ADDITIONAL KEY WORDS cell fractions cell growth protein concentrations water contentFrom the Section of Cardiovascular Surgery,

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Section: Discussionmentioning

confidence: 99%

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confidence: 98%

Hypertrophied Non-Failing Rat Heart: PARTIAL BIOCHEMICAL CHARACTERIZATION

Dart

Holloszy

1969

Circulation Research

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“…The rat is a more susceptible species than the dog. In the latter no decreases in efficiency of oxidative phosphorylation have been observed following treatment for as long as 6 months to 2 years (3,5).…”

Section: Discussionmentioning

confidence: 89%

“…Studies to date suggest that a biochemical lesion in the area of oxidative phosphorylation is not involved in the heart as in other tissues. Neither sarcosomal function (3)(4)(5) nor myocardial levels of the end products of oxidative phosphorylation, phosphorylcreatine and adenosine triphosphate (ATP) (3,4,6) were decreased in acute or chronic hyperthyroid animals. Nevertheless, the reduced myocardial resistance to anoxia (7) and the increased oxygen consumption (3,8) in the hyperthyroid heart would appear to reflect involvement of energy production in the mitochondria.…”

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confidence: 99%

Heart Mitochondrial Function in Acute and in Chronic Hyperthyroidism in Rats

Piatnek-Leunissen

Leunissen

1969

Circulation Research

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The effects of acute versus chronic hyperthyroidism on rat heart mitochondria were explored. Acute, severe hyperthyroidism with an 18% loss of body weight was induced by injecting subcutaneously 10 /i,g/100g/day of triiodothyronine for 6 to 14 days, and chronic, anabolic, moderate hyperthyroidism was induced by placing triiodothyronine in the drinking water at a dose of 25 or 50 yug/100 ml for 15 to 60 days. Mitochondrial function was assessed polarographically using a-ketoglutarate as the oxidizing substrate, and mitochondrial structure was assessed indirectly from changes in rates of swelling in decimolar alkaline salt solutions in vitro. The P-O ratios of heart mitochondria isolated with Nagarse incubation from both types of hyperthyroid rats decreased slightly (15%) but significantly (P = 0.05). Simple dilution of the hyperthyroid mitochondrial suspensions effected a 75% increase in the P-O ratio of the acutely treated rats but only a 19% increase in that of the chronically treated rats. Significantly increased susceptibility to swelling in vitro was exhibited only by the mitochondria of the chronically triiodothyronine-treated rats. On the other hand, only those of the acutely treated rats showed significant increases in the activity of Mg 2 + -stimulated mitochondrial ATPase. These data suggest that the mechanisms whereby excess thyroid hormone in vivo affects the function and structure of isolated rat heart mitochondria vary with the mode of induction and the duration of the hyperthyroid state.ADDITIONAL KEY WORDS thyrotoxicosis triiodothyronine Nagarse incubation oxidative phosphorylation phosphorylative capacity swelling in vitro mitochondrial ATPase and azide mitochondrial free fatty acid • The etiology of cardiac failure observed in the hyperthyroid patient (1, 2) and demonstrated in the chronic hyperthyroid dog (3) is as yet undefined. Studies to date suggest that a biochemical lesion in the area of oxidative phosphorylation is not involved in the heart as in other tissues. Neither sarcosomal function (3-5) nor myocardial levels of the end products of oxidative phosphorylation, phosphorylcreatine and adenosine triphosphate (ATP) (3, 4, 6) were decreased in acute or chronic hyperthyroid animals. Nevertheless, the reduced myocardial resistance to anoxia (7) and the increased oxygen consumption (3,8) in the hyperthyroid heart would appear to reflect involvement of energy production in the mitochondria. The question arises, therefore, as to whether the indices and the species used to assess mitochondrial integrity were sufficiently sensitive to demonstrate thyroidinduced changes in this remarkably resistant organ.This study was designed to explore the effects of a prolonged, chronic anabolic hyperthyroid state on the functional and structural integrity of heart mitochondria of the more susceptible species, the rat, and to compare these effects with those produced by

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“…In view of the morphological evidence of mitochondrial damage, the function of mitochondria isolated from the hearts of rabbits poisoned by coffee senna was studied using polarographic techniques to evaluate the status of mitochondrial respiration [5,20]. These techniques have been used by others in the study of various cardio-myopathies [2,[15][16][17]28,33,39]. The studies were combined with examination of several enzymes of the glycolytic and citric acid cycles, and with assays of glycogen and lactate.…”

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confidence: 99%

A Toxic Cardiomyopathy Caused byCassia occidentalis. II. Biochemical Studies in Poisoned Rabbits

O'Hara

Pierce

1974

Vet Pathol

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Abstract. Mitochondrial damage was evident in the earliest lesions in cardiac muscle of rabbits poisoned by coffee senna (Cassia occidentalis), suggesting that mitochondria might be the target for the toxic action of coffee senna. Oxidative phosphorylation by mitochondria isolated from poisoned rabbits was uncoupled, and in more severely affected rabbits mitochondrial respiration was depressed. The activities of myocardial malic dehydrogenase, isocitric dehydrogenase and lactic dehydrogenase were increased, glycogen was depleted, and lactate accumulated in poisoned rabbits. The toxin(s) of coffee senna induced uncoupling of oxidative phosphorylation in myocardial mitochondria. Thus, the mitochondria, deprived of their ability to convert the energy derived from respiration into adenosine triphosphate, were unable to maintain ionic gradients and became swollen. This caused progressive failure of respiration with subsequent disruption of myocardial mitochondrial structure and myocardial degeneration.The morphologic characteristics of the cardiomyopathy of rabbits poisoned by coffee senna (Cassia occidentalis) have been described [27]. This and other studies [29] indicated that mitochondrial degeneration was an early lesion of coffee senna poisoning of rabbits and cattle that preceded myofibriIIar degeneration and also that mitochondria might be the target of the toxin(s) of coffee senna.Biochemical studies of animals poisoned by coffee senna have been limited to demonstration of increased activities of glutamic-oxalacetic transaminase (GOT), creatine phosphokinase (CPK) and isocitric dehydrogenase (I CD) in serum, hyperkalemia and myoglobinuria [23,27]. These changes are consistent with acute myodegenerative disease but do not reveal the pathogenesis of the muscle degeneration. In view of the morphological evidence of mitochondrial damage, the function of mitochondria isolated from the hearts of rabbits poisoned by coffee senna was studied using polarographic techniques to evaluate the status of mitochondrial respiration [5,20]. These techniques have been used by others in the study of various cardio-

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Oxidative Phosphorylation in Mitochondria Isolated from Chronically Stressed Dog Hearts

Cited by 27 publications

References 25 publications

Hypertrophied Non-Failing Rat Heart: PARTIAL BIOCHEMICAL CHARACTERIZATION

Hypertrophied Non-Failing Rat Heart: PARTIAL BIOCHEMICAL CHARACTERIZATION

Heart Mitochondrial Function in Acute and in Chronic Hyperthyroidism in Rats

A Toxic Cardiomyopathy Caused byCassia occidentalis. II. Biochemical Studies in Poisoned Rabbits

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