Modulation of folliculogenesis in adult laying chickens by bisphenol A and bisphenol S: Perspectives on ovarian morphology and gene expression.

Both bisphenol A (BPA) and its analog bisphenol S (BPS) are industrial chemicals that have been used to make certain plastic products applied in chicken farms, including food and water containers. They are endocrine disrupting chemicals (EDCs) with xenoestrogenic activities and affect reproductive success in many ways. It was hypothesized that BPA and BPS could adversely affect the folliculogenesis in chickens due to their disruption of the estrogen responses, using either genomic or non-genomic mechanisms. This study investigated the deleterious effects of BPA and BPS on the ovaries when adult layer chickens were orally treated with these EDCs at 50 µg/kg body weight, the reference dose for chronic oral exposure of BPA established by the U.S. EPA. The chickens in both BPA and BPS-treated groups showed a decreased number of the preovulatory follicles. BPA-treated chickens showed a significant decrease in the diameter of F1. Additionally, both BPA and BPS treatments increased the infiltrations of lymphocytes and plasma cells in ovaries. Moreover, it was found that the ovaries of BPS-treated chickens weighed the most among the groups. RNA sequencing and subsequent pathway enrichment analysis of differentially expressed genes revealed that both BPA- and BPS-treatment groups showed significant changes in gene expression and pathways related to reproduction, immune function and carcinogenesis. Taken together, both BPA and BPS are potentially carcinogenic and have deleterious effects on the fertility of laying chickens by inducing inflammation, suggesting that BPS may not be a safe replacement for BPA.

Morphological characterization of the oral cavity of the gilthead seabream (Sparus aurata) with emphasis on the teeth-age adaptation.

Gilthead sea bream with different age groups that collected from Seawater fisheries, Ismailia Governorate, Egypt, were examined by gross anatomy and scanning electron microscopy to assess the morphological characteristics of the oral cavity. Teeth patterns showed that the gilthead sea bream is adapted to the feeding pattern according to age development, as it modified from spiny form teeth in young fishes to obelisk-like teeth and flat dome-like teeth in growing fishes, with differentiation of teeth into three pairs of canine and conical teeth, that later differentiated to small and large flat teeth. With development, the apical pouch also showed morphological differentiation from curve-like in small fishes to Y-letter shape in medium-sized fishes, which later grow to completely covering the lower jaw in grown adult fishes. Tongue papillae, on the other hand, showed some differentiation being smoother in growing fishes than adult ones. Consistent with development differentiation, the palatine region of young fishes appeared separated from the palate by deep palatine fissure, while that the same palatine region was continuous with the palate with a remnant of palatine fissure as shallow groove was noticed in grown big fishes. Taste buds were characterized in the oral cavity of small and large fishes however in large fishes; the taste buds were more prominent especially at the palate and palatine folds. These and other morphological features of the oral cavity and the feeding habits in small and large gilthead sea bream fishes were recorded.

Morphological investigation of the brain of the African ostrich (Struthio camelus) / Investigación morfológica del cerebro de la avestruz africana (Struthio camelus)

The aim of the current study focused on the morphological features of the brain of the African ostrich. The brain was studied macroscopically, microscopically and the measurements of all brain parts were demonstrated. The brain of ostrich was rhombus in shape with large obtuse triangular cerebrum with sagittal dorsomedial wulst. The olfactory bulb was small with undeveloped olfactory lobe. The diencephalon gave rise to the pineal gland, which was inverted tubal structure with an obtuse triangle bottom. Large optic chiasm and optic tract demonstrated that continued to the optic lobes. The cerebellum was represented by central vermis that had numerous transverse fissures and two small lateral floccules on its lateral surface. The medulla oblongata with clear pontine flexure and no obvious pons or trapezoid body appeared. The histological results revealed that the cerebral cortex formed of several ill-defined layers of neurons. The most common appearance characterized by few small neurons supported by neuroglia. The cerebellar cortex consists of three layers namely molecular layer, Purkinje cells layer and internal granular layer, the layer of Purkinje cells characterized by a very large cell body. The medulla oblongata was covered by pia mater of loose connective tissue that covered with simple squamous epithelium and vascular supply extended beneath the pia mater. The cell nuclei of the medulla oblongata were formed from few multipolar neurons, supported by few neuroglia. The fourth ventricle was lined by pseudo stratified columnar ciliated ependymal cells.

El objetivo fue describir las características morfológicas del cerebro de la avestruz africana. El cerebro se estudió macroscópica y microscópicamente, y las mediciones de todas las partes del cerebro fueron registradas. El cerebro tuvo una forma romboidal, con cerebelo grande triangular obtuso con una protuberancia dorsomedial sagital. El bulbo olfatorio era pequeño, con un lóbulo olfativo sin desarrollar. El diencéfalo dio lugar a la glándula pineal, que es una estructura en forma de tubo invertida con un triángulo obtuso en su parte inferior. Un gran quiasma y tracto óptico demostraron ser continuos con los lóbulos ópticos. El cerebelo estaba caracterizado por la vermis central que tenía numerosas fisuras transversales y dos pequeños flóculos laterales en su superficie lateral. La médula oblongada mostró en algunos casos una flexión pontina evidente, en otros ausencia de puentes o la aparición de un cuerpo trapezoide. Los resultados histológicos revelaron que la corteza cerebral está formada de varias capas de neuronas mal definidas. El aspecto más común se caracterizó por unas pequeñas neuronas soportadas por neuroglias. La corteza cerebelosa consistió en tres capas, molecular, de células de Purkinje y granular interna; las células de Purkinje se caracterizaron por un cuerpo celular grande. La medula oblongada estaba cubierta por pia madre de tejido conectivo laxo, revestida por epitelio escamoso simple y un suministro vascular extenso bajo la piamadre. Los núcleos de las células de la médula oblongada se formaron a partir pocas neuronas multipolares, soportados por algunas neuroglias. El cuarto ventrículo estaba revestido un epitelio pseudo-estratificado de células ependimarias columnares ciliadas.