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Brazilian Archives of Biology and Technology

Print version ISSN 1516-8913On-line version ISSN 1678-4324

Braz. arch. biol. technol. vol.52 no.2 Curitiba Mar./Apr. 2009

http://dx.doi.org/10.1590/S1516-89132009000200018 

BIOLOGICAL AND APPLIED SCIENCES

 

Liver morphology and morphometry and plasma biochemical parameters of Wistar rats that received leaf infusion of Rudgea viburnoides Benth. (Rubiaceae)

 

 

Juliana Castro Monteiro*; Sérgio Luis Pinto da Matta; Fabrícia de Souza Predes; Tânia Toledo de Oliveira

Departamento de Biologia Geral; Universidade Federal de Viçosa; Av. P.H. Rolfs s/n; 36570-000; Minas Gerais - MG - Brasil

 

 


ABSTRACT

Rudgea viburnoides leaves are widely used in popular Brazilian medicine as a diuretic, antirheumatic, hypotensive and blood depurative tea. The present study was carried out to investigate the effects of this infusion on the liver and on the plasma biochemical parameters of Wistar rats. Two groups received the R. viburnoides leaf infusion at a daily dose of 10 or 20g dry-leaves/L water, during 40 days. The histopathological analysis did not show degenerated areas or infiltration of leucocytes. Hepatic morphometry showed accumulation of fat in the hepatocytes of the treated groups. There was no significant change in the plasma levels of urea, creatinin, uric acid, direct bilirubin, cholesterol, total proteins, albumin, gamma glutamyl tranferase (gamma-GT), alanine transaminase (ALT), aspartate transaminase (AST), chlorine, phosphate and calcium. A significant reduction in the plasma levels of triacylglycerol (TAG) occurred in the group that received the higher dose.

Key words: "Congonha-de-bugre"; Rubiaceae; medicinal plants


RESUMO

As folhas de Rudgea viburnoides Benth. são utilizadas na medicina popular como diuréticas, hipotensoras, anti-reumáticas, depurativas do sangue e em regimes de emagrecimento. O presente estudo foi delineado para avaliar o efeito da infusão das folhas de R. viburnoides nos parâmetros bioquímicos plasmáticos e na morfologia e morfometria hepática de ratos Wistar adultos. Dois grupos receberam a infusão das folhas, diariamente, nas dosagens de 10 e 20 g de folhas secas/L de água, durante 40 dias. O grupo controle recebeu a mesma quantidade de água. As análises histopatológicas não mostraram áreas degeneradas e infiltrados inflamatórios. A morfometria hepática mostrou acúmulo significativo de gordura nos hepatócitos dos animais tratados, principalmente no grupo que recebeu a maior dose da infusão (8,75% de gotículas lipídicas), comparado com 0,25% delas encontradas nos animais controles. Não foram observadas alterações nos níveis plasmáticos de uréia, creatinina, ácido úrico, bilirrubina direta, colesterol, proteínas totais, albumina, gama-glutamil transferase (GGT), alanina transaminase (ALT), aspartato transaminase (AST), cloro, fósforo e cálcio. Foi observada redução significativa de 20,6% nos níveis plasmáticos de triacilglicerol no grupo que recebeu a infusão mais concentrada, comparada aos animais controle.


 

 

INTRODUCTION

Rudgea viburnoides Benth. (Family Rubiaceae), commonly known as "congonhas-de-bugre", "cotó-cotó" and "chá-de-bugre", has been used for about three hundred years in popular medicine in Brazil, especially in the state of Minas Gerais (Alves et al, 2004; Alves et al, 2000; Brandão et al., 2000; Young et al., 1998) . Various parts of the plant possess different medicinal properties: the leaves are used to treat rheumatism, syphilis, tiredness, dyspepsia, swelling of the members, bladder and urinary tract diseases, high blood pressure and recently it has been indicated for weight loss diets; the root bark and stem are good for gout, the nocturnal sweating of tubercular patients, stomach ulcers, rheumatism, as well as a blood depurative; the ripe fruit rinds exhibited a moderate antifungal activity against Cladosporium cladosporioides (Moreira, 1983; Young et al., 1998; Alves et al., 2004).

Chemical examination of R. viburnoides plant revealed the presence of flavonoids, a new triterpene (viburgenin), saponins (arjunglucoside I and trachelosperosides B-1 and E-1) and other triterpenes (trachelosperogenin B and arjungenin) (Young et al., 1998; Alves et al., 2004).

Despite its medicinal use, there is a lack of investigations on the therapeutic efficacy of this plant, as well as studies to determine the toxic side effects. Controlled clinical studies are essential. The present work investigated the effects of the leaf infusion of R. viburnoides in the rats, providing preliminary biochemical data, morphometry and morphology of the liver.

 

MATERIALS AND METHODS

Experimental Animals

Adult Wistar rats, 100 days old, weighing 230-270 g were obtained from the Departament of Nutrition and Health bioterium (Federal University of Viçosa, Viçosa, MG, Brazil) and maintained in 12hrL:12hrD conditions. The animals used in the experiment were kept and handled in accordance to Ethical Principles for Animal Research required by the Brazilian College for Animal Experimentation (COBEA). Animals were fed pelleted standard rat food, ad libitum.

Plant material

The leaves of R. viburnoides were collected from Congonhas (MG - Brazil) in May 2002. R. viburnoides was identified, authenticated and deposited in the Herbarium VIC at the Departament of Vegetal Biology, Federal University of Viçosa, Brazil, under the number 26,728. The leaves were shade-dried. An infusion of R. viburnoides was routinely prepared by pouring a liter of boiling water over the dried leaves (10 and 20g) that were allowed to steep for 20 minutes and filtered using filter paper. This produced an infusion of 3.166 mg of extract dry weight per ml of infusion (0.316% w/v) and a yield of 32.153% (w/w) in terms of initial crude plant material dry weight.

Treatment protocol

Three groups of ten randomly selected animals were used. Group I and Group II received, in water bottles, 200 mL of R. viburnoides leaf infusion daily at a dose of 10 and 20g dry-leaves/L water, respectively for 40 days. The control group received the same amount of water. The animals ingested 50 ml of tea and water on the average. The dosages were selected to mimic the popular medicinal use.

Preparation of tissue for microscopy

Animals were anesthetized with ether and the abdomen and thoracic cavity was opened to expose the heart. Animals were subsequently perfusion-fixed by whole body perfusion, based on the method proposed by Sprando (1990). Hepatic tissue was refixed for 24 h in 2.5% glutaraldehyde in PBS and prepared for embedding in glycol methacrylate using standard techniques. Subsequently, 3 µm thick sections were obtained and stained with toluidine blue/ 1% sodium borate.

Morphological analysis and Morphometry

Morphological and morphometrical analyses were performed using light microscopy. The proportion of various hepatic tissue components were determined by using a 121-intersection grid placed in the ocular lens of an Olympus BX-50 light microscope. One thousand points were counted for each animal at a magnification of 1000 times. Points were classified as follows: normal hepatocytes, Kupfer cells, lipid droplets, sinusoid capillaries, portal vein and degenerated hepatocytes.

Blood sample and Biochemical analysis

Blood samples were collected by cardiac puncture using heparin-containing sterile disposable syringes. Plasma was separated by centrifugation (7100 x G for 15 minutes) and urea, creatinin, uric acid, direct bilirubin, cholesterol, triacylglycerol (TAG), total proteins, albumin, gamma glutamyl transferase (gamma-GT), alanine transaminase (ALT), aspartate transaminase (AST), chlorine, phosphorus and calcium levels were measured using Biolab kits.

Statistical analysis

All data were presented as the mean ± SEM (standard error mean) and analyzed via ANOVA (Duncan test) by using the System for Statistical Analysis (SAEG 9.0). The significance level was p<0.05.

 

RESULTS

Liver morphology and morphometry

The histopathological analysis did not show degenerated areas nor infiltration of leucocytes; portal tracts and central veins did show noticeable, but not significant alterations, when compared to the control group. Microscopic fatty deposits in the liver were observed in the treated animals. The liver morphometric analysis is presented in Table 1. The significant increased of lipid droplets was observed in the hepatocytes of the animals of group II and they were larger than in the other group (Fig. 1). As a consequence of fat accumulation, there was a reduction in the proportion of typical hepatocytes when groups I and II were compared (p<0.05). The sinusoid capillaries were 15.12% reduced in group I (p<0.05) and 7.13% in group II (p>0.05). There was no significant change in Kupfer cells and portal vein proportions in the treated animals.

 

 

Biochemical analysis

There was no significant change in the urea, creatinin, uric acid, direct bilirubin, cholesterol, total proteins, albumin, gamma-GT, ALT, AST, chlorine, phosphate and calcium plasma levels (Table 2). A significant reduction (p<0,05) in the TAG levels occurred in the animals of group II(Table 2).

 

 

DISCUSSION

In the experimental procedure, several biochemical dosages were used to evaluate the effects of the compound tested in the animals (Lima, 2000). The most commonly used plasma biochemical parameters to detect liver damage are ALT and AST as hepatocellular markers, and alkaline phosphatase (ALP) and bilirubin as hepatobiliary markers (Tennant, 1999). The rise in serum levels of AST and ALT has been attributed to the damaged structural integrity of the liver, since these enzymes are cytoplasmically located and released into the blood after cell damage (Janbas and Gilani, 2000). The animals treated here with R. viburnoides did not present significant alterations of AST, ALT, Gamma-GT, total protein, albumin and direct bilirubin content, indicating that this plant did not cause damage in the hepatocytes and the biliary system. On the other hand, it has been suggested that hepatic TAG is a key parameter to follow the progress of toxic damage in the rat, and it has been recommended that serum TAG determination may be useful as a non-invasive method (Danni et al., 1986). The results clearly showed that plasma TAG were decreased following the treatment with the infusion of R. viburnoides, and this decrease was accompanied by microscopic fatty droplets in the liver.

A decrease in body weight on some occasions may indicate a decrease in food consumption, which is known to result from a lowering of circulating TAG (Poullain et al., 1989). Although food consumption was not measured here, no reduction in body weight in the treated groups was observed (data not presented). Therefore, it was concluded that the decrease found for TAG was not likely to be a consequence of a reduction in food intake.

The studies reporting the liver toxicity tested for a various compounds showed that a number of molecular mechanisms might be involved in the lipid changes (Provost et al., 2003). The liver plays a central role in whole body lipid and carbohydrate metabolism. Disruption of the normal mechanisms for the synthesis, transport and removal of long chain fatty acids (LCFAs) and TAG are the basis for the development of steatosis (Anstel and Goldin, 2006). Steatosis is defined as an excessive accumulation of fat in the hepatocytes and involves the accumulation of triacylglycerol in the hepatocytes, apoptosis, hepatocellular balloning, Mallory's hyaline, necrosis of hepatocytes, lobular inflammation, small hepatic vein obliteration and often fibrosis with possible progression to cirrhosis, hepatocellular cancer and liver-related death (McCullough, 2004). Although, fatty deposits in the liver were dose-dependent in the treated groups, the histopathological analysis of the liver showed normal hepatic structure without inflammatory infiltration, central lobular necrosis nor congested central veins and fibrosis. Therefore, this liver contained fatty deposits that could not be characterized as steatosis.

Most peripheral lipid effects involve, either directly and indirectly, a change in the metabolic function of the liver and is consequent to (1) an impairment of lipid synthesis, (2) an impairment of transportation due to effects on lipoproteins synthesis, and (3) an accelerated catabolism of lipids in the liver or other tissues (Provost et al., 2003). Although, the present study did not show a reduction in circulating cholesterol and the total protein levels remained unchanged, there could have occurred a deficiency in the production of apolipoprotein, a complex responsible for the transport of TAG out of the liver.

In conclusion, this study showed that the R. viburnoides leaf infusion resulted in a decrease in plasma TAG after 40 days of treatment. These changes were not related to a reduction in food consumption but correlated to microscopic changes in fatty deposits demonstrated in the liver.

 

ACKNOWLEDGEMENTS

The authors would like to acknowledge Dra. Heidi Dolder (Department of Cell Biology - UNICAMP) for correcting the English and Laboratório de Biofármacos (UFV) for the biochemical parameters analysis.

 

REFERENCES

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Received: September 18, 2006;
Revised: April 30, 2007;
Accepted: June 16, 2008.

 

 

* Author for correspondence: julianacmonteiro@yahoo.com.br

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