docSplenomegaly in Antarctic fish Cabeçuda
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Splenomegaly in Antarctic fish Cabeçuda
“main” — 2012/2/8 — 11:29 — page 171 — #1 Pesquisa Antártica Brasileira (2012) 5: 171-174 (Brazilian Antarctic Research) ISSN 0103-4049 http://vega.cnpq.br/pub/doc/proantar/ Splenomegaly in Antarctic fish Cabeçuda Notothenia coriiceps (Richardson, 1844) JOSÉ R.M.C. SILVA, IDÉRCIO L. SINHORINI, BERNARD E. JENSCH-JUNIOR, LEANDRO N. PRESSINOTTI, BRUNO C. VELLUTINI and JOÃO C.S. BORGES Department of Histology and Embryology, Biomedical Sciences Institute, University of São Paulo, Av. Prof. Lineu Prestes, 1524, 05508-900 São Paulo, SP, Brazil ABSTRACT An enlarged spleen was found after the necropsy of a specimen of the Antarctic fish N. coriiceps, and described macro and microscopically after inclusion for light microscopy. Sixteen fishes were used to compare the spleen weight. The spleen of the splenomegalic fish represents 1.44% of the total weight, while on the others it represented 0.24 ± 0.04%. The increase of the spleen indicates a pathological phenomenon. Histological study shows an obstruction of the vascular system of spleen and consequent necrosis. This work shows for the very first time a fish splenomegaly naturally found at Antarctic temperatures. Key words: Notothenia coriiceps, spleen, pathology, Antarctica. INTRODUCTION In the Antarctic environment, where temperatures are around 0◦ C, we find references of the physiology and the adaptation of fishes to these low temperatures, but there are very few works describing inflammatory processes in these animals (Borges et al. 2002, Silva et al.). Despite the intense parasite infestation at the liver (Silva et al. 1998), there are very few studies describing natural occurring pathology in these fishes (O’Neill et al. 1987; Silva et al. 1998). This work describes a natural splenomegaly found in N. coriiceps with a histological study. MATERIAL AND METHODS The necropsy of one Notothenia coriiceps – Cabeçuda (Richardson 1844) showed a splenomegalic condition. The fish was a female, total length = 34.5 cm, standard length = 30.50 cm, total weight = Correspondence to: José Roberto M. Cunha da Silva E-mail: [email protected] 625.00 g and the spleen weight = 9.02 g (Table I). In order to compare, sixteen fishes were used to measure the same parameters (total weight = 766.26 ± 154.90, total length = 37.73 ± 2.58, standard length = 33.66 ± 2.44 and spleen weight = 1.83 ± 0.42). All fishes were collected in January-February 2002 in Admiralty Bay, King George Island, South Shetland Islands (S 62◦ 10, 1680 ; W 058◦ 26, 9590 ). Fishes were kept in fibreglass tanks and acclimatized during one week. The tanks (2,000 l) were filled with running seawater (1.0 ± 1.0◦ C) in the Biology Laboratories of the Brazilian Antarctic Station “Comandante Ferraz”, where the biometric data and identification, according to Gon and Heemstra, 1990, of these animals took place. RESULTS AND CONCLUSIONS The spleen of the splenomegalic animal as well as two spleens from the group of 16 fishes were included for light microscopy studies (Fig. 1); the Pesq Antárt Bras (2012) 5 “main” — 2012/2/8 — 11:29 — page 172 — #2 172 JOSÉ ROBERTO MACHADO CUNHA DA SILVA et al. TABLE I Biometrical data of the splenomegalic animal and the 16 other control fish. Sex Normal Fish (n=16) SD Splenomegalic Fish (n=1) M/F F Total Weight (g) 766.26 154. 90 625.00 fixations of the spleen were carried out in the fixative solution of McDowell and Trump, 1976. Afterwards, the material was dehydrated in 95% alcohol, and subsequently embedded in Historesin Leica. Sections of 2 μm were obtained in the biology laboratories of the Brazilian Antarctic station and stained with H.E., fuchsin-toluidin blue and Romanowsky. The observation and documentation of the slides were carried out in Zeiss Axiomat photomicroscopes. Total Length (cm) 37.73 2.58 34.50 Standard Length (cm) 33.66 2.44 30.50 Spleen Weight (g) 1.83 0.42 9.02 Spleen/Total Weight (%) 0.24 0.04 1.44 possible to observe a lot of vessels running trough the capsule, going deeper at the white regions and at surface of the dark regions. After the longitudinal division of the spleen, an internal uncommon cavity could be seen filled with a colourless liquid (Fig. 2). Fig. 1 – Spleen from the splenomegalic fish showing a yellowish region at the surface and the superficial vessels trough the capsule and two normal ones. There is a yellowish region surface capsule Fig. 2 – Transversal section of the spleen showing a cavity with The averaged percentage of the spleen in relation to total weight of the splenomegalic fish was about six times higher than the others, or 1.44% for the splenomegalic fish and 0.24 ± 0.04% minimum = 0.16% and maximum value = 0.33% for the others fishes (Table I). The capsule of the spleen was modified and irregular with many asymmetric protuberances when compared with normal spleen. The colour varies from dark red to yellowish regions while the normal spleen is homogeneously dark red. At the dorsal region there was an amorphous yellowish mass under the capsule (Fig. 1), and it is The histology showed that the yellowish regions were mainly composed by necrotic tissue (Fig. 3) with mononuclear inflammatory infiltrate predominantly at the central region (Fig. 4). The periphery of the organ contained non-altered morphology parenchyma with many lymphocytes, erythrocytes and very delicate connective tissue trabeculae (Fig. 5). The blood vessels present at the periphery may indicate a neovascularization as part of the inflammatory process. They are larger in diameter compared to the normal spleen sinusoidal capillaries. The yellowish regions correspond to the (scale bar in mm). Pesq Antárt Bras (2012) 5 colourless fluid and the hilus (scale bar in mm). “main” — 2012/2/8 — 11:29 — page 173 — #3 173 SPLENOMEGALY IN ANTARCTIC FISH Fig. 3 – Histological transversal section of the splenomegalic spleen showing the capsule and subjacent regions including the necrotic region (scale bar = 200 μm). regions. This layer is composed by many elongated cells (fibroblasts like), suggesting that the splenomegaly was not recent. The increase of the spleen size is evident, about six times the normal spleen weights, clearly indicating a pathological phenomenon. The characteristics described above points out for an obstruction of the vascular system of the spleen and consequent lack of blood flow and necrosis, but not enough to let the fish die. This work shows for the very first time a fish splenomegaly naturally found at Antarctic temperatures. ACKNOWLEDGMENTS We thank CNPq for the financial support from grant 490104/00-1, 68.0047/00-0 and 48.0262/00-4, PROANTAR/SECIRM and the logistic support given by the Brazilian Navy. We also thank the ‘Grupo Base Único’ from the Comandante Ferraz Brazilian Antarctic Station for their general help. One of the authors (Vellutini, B. C.) had an ITI scholarship from CNPq. Fig. 4 – Histological transversal section of the splenomegalic spleen showing mononuclear inflammatory infiltrated, at the periphery and in the necrotic area (scale bar = 50 μm). RESUMO O objetivo foi estudar uma esplenomegalia encontrada em fevereiro de 2002 na cabeçuda (peixe antártico) Notothenia coriiceps (PT = 625 g, CT = 34,5 cm e Cstd. = 30,5 cm). Após a necrópsia foi removido o baço deste animal, e de mais 15 peixes normais (PT = 766,26 ± 154,9 g, CT = 37,73 ± 2,58 cm e Cstd. = 34,9 ± 2,44 cm) para comparação da porcentagem do baço no peso vivo do animal. A proporção do baço nos peixes normais foi de 0,24 ± 0,01%, enquanto o peixe com esplenomegalia apresentou uma porcentagem de 1,44%, ou seja, cerca de seis vezes maior. A cápsula do baço alterado é irreguFig. 5 – Histological transversal section of the splenomegalic spleen showing the functional residual parenchyma including capsule (scale bar = 25 μm). emerging of the necrotic area described above to the surface of the spleen. In some regions, there is a third layer between the central and periphery lar com inúmeras protuberâncias assimétricas, comparada aos baços normais. A coloração varia do vermelho-claro ao vermelho-escuro com regiões esbranquiçadas (padrão saudável: vermelho escuro e homogêneo). Na região dorsal há uma massa amorfa de aparência amarelada sobre a cápsula. Podemos observar uma grande quantidade de vasos que correm pela cápsula sendo mais profundos nas regiões claras e mais superficiais nas escuras (estes não Pesq Antárt Bras (2012) 5 “main” — 2012/2/8 — 11:29 — page 174 — #4 174 JOSÉ ROBERTO MACHADO CUNHA DA SILVA et al. aparecem no baço normal). Após um corte transversal pode ser identificada uma cavidade interna incomum e relativamente grande preenchida por líquido incolor. A histologia mostrou que as áreas esbranquiçadas eram regiões compostas de tecido necrótico, com infiltração mononuclear predominantemente na região central, en- quanto na periferia do órgão encontramos uma camada de parênquima com morfologia inalterada, ou seja, com grande quantidade de linfócitos, eritrócitos e delicadas trabéculas de tecido conjuntivo. As regiões esbranquiçadas correspondem a área necrosada que aflora à su- perfície do órgão. Em algumas regiões, entre as duas camadas já descritas (central e periférica), encontramos uma terceira camada, com grande quantidade de célu- las alongadas com morfologia compatível a fibroblastos, sugerindo uma cicatrização e indicando que a esplenomegalia não era recente. As características acima, indicam que houve uma obstrução na rede vascular do órgão, com consequente isquemia e necrose, sem entretanto levar o animal a óbito. Este trabalho mostra pela primeira vez uma esplenomegalia em peixes Antárticos que vivem a temperaturas próximas a (0◦ C). Palavras-chave: Notothenia coriiceps, baço, patologia, Antártica. REFERENCES B ORGES JCS, P ORTO -N ETO LR, M ANGIATERRA MBCD, J ENSCH -J UNIOR BE AND S ILVA JRMC. 2002. Phagocytosis in vivo and in vitro in the Antarctic Sea Urchin Sterechinus neumayeri (Meissner) at 0◦ C. Polar Biology 25: 891–897. Pesq Antárt Bras (2012) 5 S ILVA JRMC, S TAINESS N, PARRA OM AND H ER NANDEZ -B LAZQUEZ FJ. 1999. Experimental studies on the response of the fish (Notothenia coriiceps Richardson, 1844) to parasite (Pseudoterranova decipiens Krabbe, 1878) and other irritant stimuli at Antarctic temperatures. Polar Biology 22: 417–424. S ILVA JRMC, H ERNANDEZ -B LAZQUEZ FJ, P ORTO N ETO LR AND B ORGES JCS. 2001. Comparative study of in vivo and in vitro phagocytosis including germicide capacity in Odontaster validus (Koehler, 1906) at 0◦ C Phagocytosis of Odontaster validus (Koehler 1906) at 0◦ C. Journal of Invertebrate Pathology 77: 180–185. S ILVA JRMC, S TAINES N, H ERNANDEZ -B LAZQUEZ FJ, P ORTO -N ETO LR AND B ORGES JCS. 2002. Phagocytosis and giant cell formation at 0◦ C by macrophage (MØ) of Notothenia coriiceps. Journal of Fish Biology 60: 466–487. S ILVA JRMC, H ERNANDEZ -B LAZQUEZ FJ AND BARBIERI RL. 1998. Induced inflammatory process in the Antarctic fish Notothenia neglecta. Polar Biology 20: 206–212. O’N EILL JG, W HITE MG, S IMS TA AND BARBER DL. 1987. 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