Histology and histopathology Vol.19, nº 4 (2004)

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  • Publication
    Open Access
    Differential expression of calretinin in the developing and regenerating zebrafish visual system
    (Murcia : F. Hernández, 2004) García-Crespo, D.; Vecino, E.
    Calretinin is a calcium-binding protein which participates in a variety of functions including calcium buffering and neuronal protection. It also serves as a developmental marker of retinal ganglion cells (RGCs). In order to study the role of calretinin in the development and regeneration of RGCs, we have studied its pattern of expression in the retina at different developmental stages, as well as during optic nerve regeneration by means of immunohistochemistry. During development, calretinin is found for the first time in RGCs when they connect with the optic tectum. Optic nerves from adult zebrafish were crushed and after different survival times, calretinin expression in the retina, optic nerve tract and optic tectum was studied. From the day of crushing to 10 days later, calretinin expression was found to be downregulated within RGCs and their axons, as was also observed during the early developmental stages of RGCs, when they are not committed to a definite cell phenotype. Moreover, 13 days after lesion, when the regenerating axons arrived at the optic tectum, a recovery of calretinin immunoreactivity within the RGCs was observed. These results indicate that calretinin may play an important role during optic nerve regeneration, Thus, the downregulation of Calretinin during the growth of the RGC axons towards the target during development as well as during their regeneration after injury, indicates that an increase the availability of cytosolic calcium is integral to axon outgrowth thus recapitulating the pattern observed during development.
  • Publication
    Open Access
    In vitro and in vivo characterization of neural stem cells
    (Murcia : F. Hernández, 2004) Bazán, E.; Alonso, F.J.M.; Redondo, C.; López-Toledano, M.A.; Alfaro, J.M.; Reimers, D.; Herranz, A. S.; Paíno, C.L.; Serrano, A.B.; Cobacho, N.; Caso, E.; Lobo, M.V.T.
    Neural stem cells are defined as clonogenic cells with self-renewal capacity and the ability to generate all neural lineages (multipotentiality). Cells with these characteristics have been isolated from the embryonic and adult central nervous system. Under specific conditions, these cells can differentiate into neurons, glia, and non-neural cell types, or proliferate in long-term cultures as cell clusters termed “neurospheres”. These cultures represent a useful model for neurodevelopmental studies and a potential cell source for cell replacement therapy. Because no specific markers are available to unequivocally identify neural stem cells, their functional characteristics (self-renewal and multipotentiality) provide the main features for their identification. Here, we review the experimental and ultrastructural studies aimed at identifying the morphological characteristics and the antigenic markers of neural stem cells for their in vitro and in vivo identification.
  • Publication
    Open Access
    Microstructural observations of villous and membrane histology in monochorionic triplet placenta after in vitro fertilization
    (Murcia : F. Hernández, 2004) Sills, E.S.; Ghulmiyyah, L.M.; Wehbe, S.A.; Atkinson, P.F.; Perloe, M.; Tucker, M.J.
    The frequency of triplet gestation is low in humans, estimated at 1:6400 deliveries. Monochorionic gestations represent a subpopulation of approximately 10% of these triplet pregnancies. Hypertensive complications are known to occur with greater frequency in the context of multiple gestation. In this report we describe microscopic placental changes associated with pre-eclampsia and proteinuria in the setting of an uncommon monochorionic-triamniotic triplet pregnancy achieved via in vitro fertilization. Histologic features observed in this case include placental stromal fibrosis and increased syncytial nodularity (Tenney-Parker change). In this triplet delivery resulting from two consecutive fissions of a single embryo, chorion and amnion configuration are also characterized with a review of the literature discussing the potential relationship between in vitro culture conditions and monozygotic multiple gestation.
  • Publication
    Open Access
    Toll-like receptor 4 in normal and inflamed lungs and other organs of pig, dog and cattle
    (Murcia : F. Hernández, 2004) Wassef, A.; Janardhan, K.; Pearce, J.W.; Singh, B.
    Bacterial diseases, especially those of the lung caused by Gram-negative bacteria, inflict significant economic loss associated with mortality and morbidity in domestic animals. Toll-like receptor 4 (TLR4) has recently been recognized as a major receptor for cellular interactions with lipopolysaccharides derived from Gram-negative bacteria. However, there are no data on the expression of TLR4 in various organs of domestic animals. We performed immunohistochemistry and immuno-gold electron microscopy to localize TLR4 in lung and seven other organs from normal pig, dog and calf (n=2 each) and in inflamed lungs from calves (n=4) challenged with Mannheimia hemolytica. The data show TLR4 in macrophages in lung, small intestine, liver and spleen in all the species and pulmonary intravascular macrophages in calves and pigs. Epithelium in lung, small intestine, cornea and convoluted and straight renal tubules was stained for TLR4. Vascular endothelium of large blood vessels only in lungs and skin was positive, and skeletal muscles were negative for TLR4. In inflamed lungs, airway epithelium showed reduced staining for TLR4 while staining in macrophages remained unaltered. These are the first immunocytochemical data on TLR4 expression in domestic animal species and show similarity in TLR4 staining in macrophages, epithelium and vascular endothelium among dog, pig and cattle.
  • Publication
    Open Access
    Interstitital cells of Cajal in the human stomach: distribution and relationship with enteric innervation
    (Murcia : F. Hernández, 2004) Ibba-Manneschi, L.; Pacini, S.; Corsani, L.; Bechi, P.; Faussone-Pellegrini, M.S
    Interstitial cells of Cajal (ICC) are distributed throughout the gastrointestinal muscle coat with a region-specific location, and are considered to be pacemaker and/or mediators of neurotransmission. Little is known about their shape, size, distribution and relationships with excitatory and inhibitory nerves in human stomach. With this aim, we labeled the ICC, using c-Kit immunohistochemistry, followed by a quantitative analysis to evaluate the distribution and area occupied by these cells in the circular and longitudinal muscle layers and at the myenteric plexus level in the human fundus, corpus and antrum. Furthermore, by NADPH-d histochemistry and substance P (SP) immunohistochemistry, we labeled and quantified nitric oxide (NO)-producing and SP-containing nerves and evidenced their relationships with the ICC in these three gastric regions. In the fundus, the ICC appeared as bipolar cells and in the corpus and antrum they mainly appeared as multipolar cells, with highly ramified processes. The networks formed by ICC differed in the three gastric regions. The ICC number was significantly higher and cell area smaller in the fundus compared to the corpus and antrum. The area occupied by the ICC was significantly higher at the myenteric plexus level compared with circular and longitudinal muscle layers. Everywhere, NADPH-d-positive nerves were more numerous than SP-positive ones. Both kinds of fibers were closely apposed to the ICC in the corpus and antrum. In conclusion, in the human stomach, the ICC have region-specific shape, size and distribution and in the corpus and antrum have close contact with both inhibitory and excitatory nerves. Presumably, as suggested for laboratory mammals, these differences are in relationship with the motor activities peculiar to each gastric area.