Morphological study of the oral denticles of the porbeagle shark Lamna nasus.

Oral denticles of sharks are composed by a crown, dentine covered by a layer of enameloid and pulp cavity, the same structure of the dermal denticles found across the body surface of most elasmobranchs. In addition, oral papillae and taste buds are distributed among denticles within the oropharyngeal cavity, playing a fundamental role for tasting as part of the chemosensory system of fishes. Scanning electron microscopy (SEM) has been employed as an important tool for the study of dermal denticles and other structures, as well as histology and more recently computed tomography (CT) scan analysis. Herein, the authors used two methods for the study of the morphology of the oropharyngeal cavity of Lamna nasus (Lamniformes), an oceanic and pelagic shark: SEM and CT scan. The general morphology of oral denticles studied herein is related to abrasion strength as they are diamond-shaped, lack lateral cusps and have less pronounced ridges. In addition, smooth ridges and broad rounded denticles could be related to prevent abrasion during food consumption and manipulation. Oral papillae had a round shape and were observed only under SEM. The densities of papillae were estimated in 100 per cm2 , whereas denticles were 1760 and 1230 cm2 over the dorsal and ventral regions, respectively. The high numbers of denticles are inversely proportional to papillae density; denticles seem to restrict papillae distribution. Regarding the differences between methodologies, under SEM, only the crown was visualized, as well the papillae, allowing the estimation of size and density of both structures. Nonetheless, under CT scan, the whole components of denticles were clearly visualized: different views of the crown, peduncle, basal plate, and pulp cavity. On the contrary, oral papillae were not visualized under CT due to the tissue preparation. Furthermore, both methods are complementary and were important to extract as much information as possible from denticles and papillae.

Imunofenotipagem dos linfócitos positivos para indoleamina 2, 3 dioxigenase (IDO) em cultura de células de placenta bovina / Phenotyping of the indoleamine 2, 3 dioxygenase (IDO) positive lymphocytes in bovine placental cell culture

A gestação é um estado fisiológico que exige adaptações imunológicas para que transcorra normalmente. Nesse período a mãe e o feto apresentam uma relação imunológica, ou seja, a interface materno fetal. A enzima indoleamina 2,3 dioxigenase (IDO) desempenha um papel importante na tolerância materno fetal, por ser responsável pela metabolização do triptofano, impedindo por diversas vias a proliferação principalmente de linfócitos TCD8. Diversos tipos celulares estão presentes na interface materno fetal e vários deles podem expressar a IDO. Os leucócitos com perfil Th1 produzem uma citocina conhecida: o interferon γ que estimula a expressão da IDO em vários tipos celulares. Os linfócitos são divididos em subpopulações de acordo com sua função e fenótipo. Seus tipos incluem linfócitos T, linfócitos B e as células natural killer (NK). Hormônios também atuam nesse processo a progesterona que exerce função determinante sobre a resposta imunológica materna podendo alterar o prognóstico gestacional e o estrógeno essencial para a tolerância materno fetal e manutenção da prenhez. Dessa maneira este trabalho tem por objetivo principal identificar os linfócitos presentes na placenta bovina em cultivo que expressam IDO (linfócitos T, linfócitos B e células NK), frente a estimulação por progesterona, estrógeno e interferon γ nas diversas fases gestacionais utilizando a citometria de fluxo. Segundo os resultados no período de 67,5 a 77, 5 dias com a adição de interferon γ a expressão da enzima IDO aumentou discretamente nos linfócitos TCD3, TCD4, e diferente dos linfócitos T CD8 apresentaram uma elevada expressão da enzima (4,48 ± 2,12 - 8,65± 4,91)....

Pregnancy is a physiological state that requires immune adaptation in order to be successfully carried on. During this period, mother and fetus establish an immune tolerance status at the maternal fetal interface. Indoleamine 2,3-dioxygenase (IDO) plays an important role in maternal-fetal tolerance by metabolizing tryptophan, impairs by several pathways, mainly T CD8 cells proliferation. Several cell types are present in the maternal fetal interface and several of them can express IDO. Leucocytes with Th1 produce a cytokine known as interferon γ that stimulates the expression of IDO in several cell types. Lymphocytes are divided into sub-populations according to their function and phenotype: T lymphocytes, B lymphocytes and natural killer cells (NK). Hormones also involved in this process where progesterone exerts decisive role on maternal immune response that may change gestational outcome and estrogen is essential for fetal maternal tolerance and maintenance of pregnancy. Therefore, the main objective of this study was to identify lymphocytes in the bovine placental cell culture that are sensitive to progesterone, estrogen and interferon γ, IDO expression in various gestational stages using flow cytometry. According to the results in the gestational period from 67.5 to 77.5 days with the addition of interferon γ expression IDO was slightly increased in TCD3 lymphocytes, CD4, and differently from the other T cells CD8 displayed an higher expression of the enzyme (4.48±2.12 to 8.65±4.91)...