ABSTRACT
This study characterized the structure and the morphocytochemical, immunohistochemical and ultrastructural aspects of the head kidney (HK) of the fat snook Centropomus parallelus. The HK is enclosed by a thin capsule of connective tissue, from which fine trabeculae originate and branch into the interior of organ. In the parenchyma, there are aggregates of lymphoid cells containing populations of lymphocytes T immunopositive for CDRO45, in a nodular arrangement, around blood vessels and melano-macrophage centres. Among the cells that constituted these aggregates and surrounded them, were macrophages and monocytes, and their precursors, with strong immunopositivity for CD68, along with cells of the granulocytic lineage in various phases of maturation positive for lysozyme and PAS. Macrophages and chromaffin and interrenal cells are also present. Ultrastructurally, the HK comprises a reticulum-endothelial stroma consisting of endothelial cells, reticulocytes of the fibroblast type and macrophage type and a parenchyma with increased cellularity, principally blood cells of the erythrocytic, granulocytic, lymphocytic, monocytic and thrombocytic series.
Subject(s)
Animals , Fishes/anatomy & histology , Fishes/classificationABSTRACT
Species of the genus Brachycephalus, have a snout-vent length of less than 18 mm and are believed to have evolved through miniaturization. Brachycephalus ephippium, is particularly interesting; because its entire skull is hyperossified, and the presacral vertebrae and transverse processes are covered by a dorsal shield. We demonstrate in this paper that, at the macroscopic level, a completely hyperossified skull and dorsal shield occur only in B. ephippium, but not in B. ferruginus, B. izechsohni, B. pernix, B. pombali, B. brunneus, B. didactylus, and B. hermogenesi. An intermediate condition, in which the skull is hyperossified but a dorsal shield is absent, occurs in B. vertebralis, B. nodoterga, B. pitanga, and B. alipioi. The microscopic structure of hyperossification was examined in skulls of B. ephippium and B. pitanga, revealing a complex organization involving the presence of Sharpey fibers, which in humans are characteristic of periodontal connections.
Subject(s)
Animals , Amphibians/anatomy & histology , Amphibians/classificationABSTRACT
Tupinambis merianae is a lizard of the Brazilian fauna and belongs to the Squamata order. Blood cell data are scarce. Blood samples from six specimens of adult T. merianae were used to evaluate some hematological parameters. For structural analysis, 2 ml of blood was collected in the presence of EDTA. Part of the blood was used for preparing blood smears which were submitted to the methods of Leishman, Laür, and toluidine blue, and the cytochemical reactions of periodic acid-Schiff, sirius red, sudan black B, and ortho-toluidine-H2 O2. The remainder was centrifuged and the leukocyte buffy coat was fixed in Karnovsky's fluid for electron microscopy examination. The following blood cells were identified: mature and immature erythrocytes, spherical and elliptical thrombocytes, heterophilic granulocytes, eosinophils and basophils types I and II, lymphocytes, monocytes, and azurophilic cells. The more significant results obtained were: the presence of glycogen in the cytoplasm of the thrombocytes, heterophils, and basophils; the presence of basic polyaminoacid-rich proteins in the granules of heterophils and eosinophils and myeloperoxidase in the granules of the heterophils, eosinophils, and azurophilic cells; and sudanophilic small granules in the heterophils, eosinophils, and azurophilic cells. More detailed morphological aspects of the cells were observed by means of ultrastructural analysis.
Subject(s)
Animals , Lizards/anatomy & histology , Lizards/classificationABSTRACT
Some anurans have a peculiar casqued head with the skin co-ossified with the underlying bones. This type of skull usually is associated with phragmosis, a protective behaviour in which the animal enters a hole and closes it with the head. Although co-ossification of the head in lissamphibians frequently has been associated with water economy, recent studies of Corythomantis greeningi, a casque-headed tree frog from semi-arid areas in north-eastern Brazil, suggest that cranial co-ossification contributes little to conservation of water in the frog. Instead, during phragmotic behaviour, the co-ossified head protects the animal against predators and indirectly enhances water balance. Thus, the primary role of co-ossification is defence, a hypothesis that is the focus of this study, which describes the morphology of the head of C. greeningi with an emphasis on the co-ossification and the venom glands. We report on behavioural features and on the toxicity of the cutaneous secretion produced by the abundant venom glands that are associated with large spicules on the skull.
Subject(s)
Animals , Anura/anatomy & histology , Anura/classificationABSTRACT
Amphibian skin is characterized by the presence of mucous glands, related to cutaneous breathing, reproduction and water balance, and granular glands, related to the production of toxins used in defence. In some species the granular glands can form accumulations in certain regions of the body. This is the case for inguinal macroglands of the leptodactylid frog Physalaemus nattereri, where these structures form a pair of black discs associated with deimatic behaviour. The morphology of the inguinal macroglands and their secretion were studied in this species and correlated to deimatic behaviour. The inguinal macroglands are formed from elongated granular glands that, in contrast with the granular glands of the rest of the skin, have small spherical granules with a proteinic content. In the dermis of the whole body, except for the inguinal macroglands and the inguinal region, a well-developed calcified dermal layer is observed. During deimatic behaviour these macroglands discourage a potential predator from attacking, but if visual cues are insufficient and the predator persists in the attack, a toxic secretion is eliminated in its mouth. This elimination is favoured by the absence of a calcified dermal layer in the macroglands, which makes the dermal region softer than the rest of the dorsal skin.
Subject(s)
Animals , Anura/anatomy & histology , Anura/classification , SkinABSTRACT
Some species of anuran amphibians possess a calcified dermal layer (the Eberth-Kastschenko layer) located between the "stratum spongiosum" and the "stratum compactum". This layer consists of calcium phosphate deposits, proteoglycans, and glycosaminoglycans. Although regarded as a protective layer against desiccation, a calcium reservoir, or possibly a remnant of a dermal skeleton present in anuran ancestors, very little is known about its origin, structure, and function. Thus, we studied the structure and composition of the mineralized dermal layer of Corythomantis greeningi, a peculiar hylid from the Brazilian semiarid region (caatinga), using conventional and cryosubstitution methods combined with transmission, scanning, and analytical electron microscopy. Results show that the dermal layer consists of dense, closely juxtaposed, globular structures. Although the electron opacity of the globules was variable, depending on the type of preparation, crystal-like inclusions were present in all of them, as confirmed by dark field microscopy. Electron probe X-ray microanalysis showed calcium, phosphorus, and oxygen, and electron diffraction revealed a crystalline structure comparable to that of a hydroxyapatite.
Subject(s)
Animals , Anura/anatomy & histology , SkinABSTRACT
The caecilians (or Gymnophiona) constitute one of the least well known groups of terrestrial vertebrates because most species live underground, in quite unaccessible environments. Siphonops annulatus is an exclusively fossorial species and is the most extensively distributed caecilian in South America. This work is the first of a series which intends to study the complete morphology of this species. It describes the general anatomy and the initial portion of the digestive system, from the mouth to the stomach. The general aspect of the body and the elongation of the organs seem to be related to adaptation to the fossorial environment.
Subject(s)
Animals , Amphibians/anatomy & histology , Amphibians/classificationABSTRACT
A comparative ultrastructural study on organelles involved in haemoglobin (Hb) biosynthesis processing in the course of Amphisbaena alba (Amphisbaenia, Squamata, Reptilia) and Waglerophis merremii (Ophidia, Squamata, Reptilia) erythroid cells maturation, was accomplished; for this purpose, erythropoiesis was enhanced by phenylhydrazine hydrochloride and saponin, respectively. The fossorial amphisbaenians, which live in an hypoxic environment, denoted a lower metabolic rate than that of snakes; they presented a slow response to intoxication and to anaesthesia, and an apparently slow transformation of erythroid cell organelles for Hb biosynthesis. Iron uptake, probably via transferrin, results in accumulation in the form of siderosomes, which constitute iron sources for haeme biosynthesis. The inner compartment membrane of mitochondria differentiates to a lamellated body, from which a long doubly lamellated expansion arises for ferruginous compounds and globin polypeptides gathering; by folding upon itself the expansion compartmentalises all caught material into a prehaemosomal vesicle, which condenses and changes to a prohaemosome. This stage is followed by a haemosome, wherein haeme and globin assembly and the final Hb molecule formation take place. Basically, haemosomegenesis is very similar in the two squamates, as in other vertebrates, except that amphisbaenian erythroid cells exhibit haemosomes containing Hb molecules temporarily arranged in a transverse disposition, like steps within the organelle matrix.
