Abstracts

SHORT COMMUNICATION

Skeletal muscle ischemia and reperfusion in rats increase lipid peroxidation in rats¹ 1 . Department of Surgery and Anatomy, Faculty of Medicine of Ribeirão Preto, University of São Paulo. Ribeirão Preto/SP, Brazil.

Isquemia e reperfusão do músculo esquelético aumenta a peroxidação lipídica em ratos

Carlos Eli Piccinato^I; Armando De Domenico Jr^II; Alceu Afonso Jordão Jr^III; Helio Vannucchi^IV

^IProfessor, Doctor. Department of Surgery and Anatomy, Faculty of Medicine of Ribeirão Preto, University of São Paulo

^IIPost-Graduation Student. Department of Surgery and Anatomy, Faculty of Medicine of Ribeirão Preto, University of São Paulo

^IIIProfessor, Doctor. Department of Internal Medicine, Faculty of Medicine of Ribeirão Preto, University of São Paulo

^IVProfessor, Doctor. Chief of Nutrition Clinical Division. Department of Internal Medicine, Faculty of Medicine of Ribeirão Preto, University of São Paulo

^{Endereço para correspondência} Endereço para correspondência Carlos Eli Piccinato Faculty of Medicine of Ribeirão Preto Department of Surgery and Anatomy, University of São Paulo Av. Bandeirantes, 3900 14049-900 Ribeirão Preto - SP, Brazil cepiccin@fmrp.usp.br

ABSTRACT

PURPOSE: To determine the effects of 30 minutes of ischemia followed by 30 minutes of reperfusion in skeletal muscle of rats receiving three different diets (supplemented, normal and vitamin E deficient) on lipoperoxidation (LP).

METHODS: LP measured by TBARS levels, and plasma and hepatic concentrations of vitamin E measured by HPLC.

RESULTS: The deficient group presented higher lipoperoxidation levels in muscle compared to the control and supplemented groups.

CONCLUSION: Supplementation with vitamin E decrease the free radicals production in ischemia/reperfusion in skeletal muscle of rats.

Key Words: Ischemia. Skeletal muscle. Vitamin E. Free radicals. Rats.

RESUMO

OBJETIVO: Existem evidências que nos processos de isquemia e reperfusão do músculo esquelético pode ocorrer uma maior formação de radicais livres e que os efeitos deletérios destes radicais podem ser inibidos pela presença de substâncias antioxidantes, como a vitamina E.

MÉTODOS: O presente trabalho demonstra os efeitos de 30 minutos de isquemia seguido de 30 minutos de reperfusão em músculo esquelético de ratos Wistar recebendo 3 diferentes dietas: suplementada 20 vezes (GS), controle (GC) e deficiente em vitamina E por 30 dias (GD), sobre a taxa de peroxidação lipídica e níveis plasmáticos e musculares de vitamina E.

RESULTADOS: As médias de pesos e de ingestão dietética dos grupos experimentais a cada semana mostrou que não houve diferença estatística significativa entre os 3 grupos que receberam dietas com teores diferentes de vitamina E. Quanto aos valores de vitamina E existiu diferença entre os 3 grupos no músculo, sendo respectivamente o deficiente menor que o controle e menor que o suplementado (GD 2.15 ± 0.44, GC 6.37 ± 1.66 e GS 18.43 ± 1.80, p < 0,05). Os valores musculares das peroxidação lipídica foram altamente influenciados pela dieta, tendo um aumento significativo no grupo deficiente em vitamina E. Estes resultados fortalecem a hipótese de que a isquemia e reperfusão são processos geradores de radicais livres e que uma dieta rica em vitamina E pode atuar como fator protetor contra a peroxidação lipídica.

CONCLUSÃO: Os músculos esqueléticos de ratos isquêmicos e reperfundidos tratados com dieta suplementada com vitamina E por quatro semanas apresentam taxa menor de peroxidação lipídica quando comparados com aqueles do grupo de ratos tratados com dieta controle e que uma dieta deficiente em vitamina E favorece o aumento dos radicais livres.

Descritores: Isquemia. Músculo esquelético. Vitamina E. Radicais livres. Ratos.

Introduction

There is evidence that greater formation of free radicals can occur in processes of skeletal muscle ischemia and reperfusion, with consequent damage to amino acids, carbohydrates and especially unsaturated lipids present in the cell membrane¹. Among the other consequences of this process is the presence of mediators of inflammation, leukocyte infiltration, phospholipid peroxidation, changes in nitric oxide metabolism, and reduction of ATP production².

These deleterious effects can be attenuated by interference with, or modulation of, the physiopathological processes that occur during ischemia and reperfusion². In addition, the deleterious effects of free radicals can be inhibited by the presence of antioxidant substances such as vitamin E which can inhibit the occurrence of lipid peroxidation^3,4.

Formigli et al.⁵ postulated that treatment with vitamin E can be considered as a tool for protection against the damage of ischemia-reperfusion in human skeletal muscle.

Thus, the objective of the present study was to determine the effects of 30 minutes of ischemia followed by 30 minutes of reperfusion in skeletal muscle of rats receiving 3 different diets (supplemented, normal and vitamin E deficient) on lipoperoxidation rate measured by TBARS levels, and plasma and hepatic concentrations of vitamin E.

Methods

The study was conducted on 30 newly weaned male Wistar rats weighing on average 60 g, from the Central Animal Colony of FMRP-USP. The animals were divided into three groups:

Control Group (CG, n=10): rats receiving a normal vitamin E diet for one month and submitted to 30 minutes of skeletal muscle ischemia followed by 30 minutes of reperfusion Supplemented Group (SG, n=10): rats receiving a diet supplemented with 30-fold the recommended amount of vitamin E for one month and then and submitted to 30 minutes of skeletal muscle ischemia followed by 30 minutes of reperfusion

Deficient Group (DG, n=10): rats receiving a deficient, vitamin E-free diet for one month and then submitted to 30 minutes of skeletal muscle ischemia followed by 30 minutes of reperfusion.

The diets offered to the animals were prepared according to 1975 AOAC recommendations⁶. Both the diets and water were offered ad libitum. The animals were housed in individual cages on an artificial 12 hour light-12 hour dark schedule, at a mean temperature of 22º C.

Ingestion was controlled by regular weighing of the feeders twice a week and the animals were weighed every 4 days. At the end of 30 days, the animals were operated one by one in the CG, SG and DG sequence under general ethyl ether anesthesia. After median laparotomy, the abdominal aorta was exposed by blunt dissection and occluded distally to the emergence of the renal arteries with an atraumatic vascular clamp for a period of 30 minutes according to the partial acute ischemia model of Perry and Fantini⁷. Acute ischemia was confirmed on the basis of hind paw cyanosis and coldness. After this period of ischemia, the vascular clamp was removed and reperfusion was allowed to occur for 30 minutes. Reperfusion to the hind limbs was characterized by warming and by the return of color in the extremities.

The animals were anesthetized with ether and sacrificed by exsanguination after removal of 10 ml blood by cardiac puncture (right ventricle) for the determination of plasma vitamin E levels. Muscle samples (2 to 3 g of gastrocnemius and digitorum flexor muscles) were then collected, weighed, and placed in Eppendorf tubes which were immediately stored in liquid nitrogen (- 196°C) for later determination of TBARS and a -tocopherol.

Laboratory methods

TBARS were measured in muscle by the method of Buege & Aust⁸, and TBARS values are expressed on the basis of protein amount in muscle.

Analysis of vitamin E (a -tocopherol) was carried out on plasma and muscle samples by HPLC (Shimadzu®) using a C-18 type column (Shimpack CLC-ODS 4.6 x 25 cm), a 4 mm x 1 cm precolumn and a flow rate of 2.0 mL/min, with readings taken with a UV/Vis detector at 292 nm⁹.

Data are reported as means ± standard deviation. Groups were compared by analysis of variance (ANOVA) and by the Tukey test, with the level of significance set at p<0.05.

Results

Analysis of variance of mean weekly weight data for the experimental groups showed no significant difference (p<0.05) between the 3 groups receiving diets with different vitamin E contents (Table 1). Diet ingestion also did not differ significantly between groups (data not shown).

Analysis of variance showed that the deficient group presented higher TBARS levels in muscle compared to the control and supplemented groups. With respect to vitamin E values, the 3 groups differed both in muscle and plasma, with the following sequence: SG > CG > DG (Table 2).

Discussion

The animals in the different groups ingested similar amounts of ration and therefore did not differ significantly in weight at the end of the 4 weeks of the experiment. Muscle TBARS values were highly influenced by diet, showing a statistically significant increase in the vitamin E-deficient group and a reduction in the supplemented group compared to control.

Increased TBARS production is strong evidence that lipid peroxidation is one of the mechanisms of tissue damage influenced by vitamin E levels in the diet. In a previous study, Vannucchi et al.³ postulated that vitamin E deficiency may induce lipid peroxidation in the rat liver and that the maintenance of adequate or high vitamin E levels in the diet may act as a protective factor against the generation of free radicals.

Grisotto et al.¹⁰ demonstrated that, after a 3 hour ischemia, there are signs of damage to the phospholipid membrane of rat skeletal muscle, but few changes in the oxidative status of the cells. However, after 45 minutes of reperfusion, significant changes in the oxidative picture occurred, with an increase in oxidized glutathione and malondialdehyde.

Conclusions

These results support the hypothesis that ischemia and reperfusion are free radical-generating processes and that a vitamin E-rich diet can act as a protective factor against lipid peroxidation. We conclude that skeletal muscle of ischemic and reperfused rats treated with a vitamin E-supplemented diet for 4 weeks present a lower lipid peroxidation rate compared to rats treated with a control diet and with a vitamin E-deficient diet and that a vitamin E-deficient diet favors an increase in free radicals.

Received: May 15, 2004

Review: June 25, 2004

Accepted: July 19, 2004

Conflict of interest: none

Financial source: none

How to cite this article:

Piccinato CE, De Domenico Jr A, Jordão Jr AA, Vannucchi H. Skeletal muscle ischemia and reperfusion in rats increase lipid peroxidation in rats. Acta Cir Bras [serial online] 2004 Sept-Oct;19(5). Available from URL: http://www.scielo.br/acb [also in CD-ROM].

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