Histology and histopathology Vol.18, nº 2 (2003)

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  • Publication
    Open Access
    Structure and molecular organization of dendritic spines
    (Murcia : F. Hernández, 2003) Tashiro, A.; Yuste, R.
    Dendritic spines mediate most excitatory synapses in the CNS and are therefore likely to be of major importance for neural processing. We review the structural aspects of dendritic spines, with particular emphasis on recent advances in the characterization of their molecular components. Spine morphology is very diverse and spine size is correlated with the strength of the synaptic transmission. In addition, the spine neck biochemically isolates individual synapses. Therefore, spine morphology directly reflects its function. A large number of molecules have been described in spines, involving several biochemical families. Considering the small size of a spine, the variety of molecules found is astounding, suggesting that spines are paramount examples of biological nanotechnology. Singlemolecular studies appear necessary for future progress. The purpose of this rich molecular diversity is still mysterious but endows synapses with a diverse and flexible biochemical machinery.
  • Publication
    Open Access
    Astrogliosis in different zones of the spinal cord gray matter after sciatic nerve axotomy in the newborn rat: A morphometric and immunohistochemical study
    (Murcia : F. Hernández, 2003) Tiraihi, T.; Masoudian, N.
    Astrocytic response following unilateral sciatic nerve axotomy was examined in the spinal gray matter of newborn rats. Using an antiserum to glial fibrillary acidic protein (GFAP), immunoreactive astrocytes were studied in the ventral, dorsal and transitional region between the dorsal and ventral gray matters (TDVG) at intervals of one day, one week, two weeks and one month postaxotomy. The axotomized side showed an obvious increase in the number of immunoreactive astrocytes at one week, two weeks and one month after surgery. The numerical density per area of the glial cells (N(a)) was determined in all groups on both the intact and axotomized sides, and it increased in all groups at the axotomized sides. The percentage of glial cell increase (Pgi) was also determined. At the ventral horn Pgi increased at day one and continued to increase in all groups, while the increase in TDVG and the dorsal horn occurred at later time points. The total motoneuron count in the ventral horn at the axotomized and intact sides was done at all time points, and the percentage of motoneuron reduction (Pmr) was calculated, the highest Pmr being noticed at one month (41%). A nonlinear regression for Pmr and Pgi showed that the rate of Pgi was approximately double that of Pmr. The rate of glial cell increase at each time point (one day, one week, two weeks and one month groups) was calculated, and the highest rate of glial cell increase in the ventral horn occurred one week after axotomy, while the highest rate in the dorsal horn and TDVG occurred at the second week. The conclusion of the study is that there may be an initial post-axotomic proliferative phase of the glial cells, which was followed by a differentiation phase. Also a gradient of an increase in the rate glial cell proliferation was noticed from the ventral horn toward the dorsal horn, maybe due to stimulation by a paracrine factor.
  • Publication
    Open Access
    Effects of the proapoptotic drug prodigiosin on cell cycle-related proteins in Jurkat T cells
    (Murcia : F. Hernández, 2003) Pérez-Tomás, R.; Montaner, B.
    Prodigiosin (PG) is a red pigment produced by Serratia marcescens with immunosuppressive and apoptotic activities. In this study, we sought to examine the effect of PG on cell cycle-related proteins. The antiproliferative activity of PG was tested using human Jurkat leukaemia T cells in culture. PG-inhibited cell proliferation was determined using thymidine incorporation assay. PG-arrested cell cycle was analysed using immunoblot analysis with specific antibodies against cell cycle-related proteins and kinase assays of cdk2. Apoptosis was determined by Hoechst staining and analysis of DNA fragmentation. PG inhibited cyclin E, cdk2, p27 and p21, the induction of the cyclin A-cdk2 and cyclin E-cdk2 kinase activity, and the phosphorylation of Rb in leukaemic Jurkat cells. We confirmed that PG induces apoptosis by the characteristic DNA laddering pattern and condensed nuclei or apoptotic bodies identified by fluorescence microscopy. These results indicate that PG and other family members form a new group of molecules with a common mechanism of action and specific molecular targets, raising the possibility of their therapeutic use as antineoplastic drugs.
  • Publication
    Open Access
    Apocrine secretory mechanism: Recent findings and unresolved problems
    (Murcia : F. Hernández, 2003) Gesase, A.P.; Satoh, Y.
    Cell secretion is an important physiological process that ensures smooth metabolic activities, tissue repair and growth and immunological functions in the body. It occurs when the intracellular secretory materials are released to the exterior; these may be in the form of lipids, protein or mucous and may travel through a duct system or via blood to reach the target organ. To date three types of secretory mechanisms have been characterized, they include apocrine, holocrine and exocytosis. Apocrine secretion occurs when the release of secretory materials is accompanied with loss of part of cytoplasm. The secretory materials may be contained in the secretory vesicles or dissolved in the cytoplasm that is lost during secretion. In holocrine secretion, the entire cell is secreted into the glandular lumen, and it is presumed that the intended secretory materials are contained in the cell cytoplasm. Exocytosis is the most commonly occurring type of secretion; here the secretory materials are contained in the secretory vesicles and released without loss of cytoplasm. Apocrine secretory mechanisms have not been properly discussed; for example the biochemical and physiological pathways that regulate apocrine secretory process are not clearly known. Similarly, the plasma membrane dynamics during apocrine secretion has not been researched. In other glands morphological features during apocrine secretion have not been documented. The current paper reviews what is known about apocrine secretion, recent findings and highlights on the unresolved areas for future research.
  • Publication
    Open Access
    Ubiquitinated inclusions and neuronal cell death
    (Murcia : F. Hernández, 2003) Lang-Rollin, I.; Rideout, H.J.; Stefanis, L.
    Summary. Ubiquitinated inclusions and selective neuronal cell death are considered the pathological hallmarks of Parkinson’s disease and other neurodegenerative diseases. Recent genetic, pathological and biochemical evidence suggests that dysfunction of ubiquitin-dependent protein degradation by the proteasome might be a contributing, if not initiating factor in the pathogenesis of these diseases. In neuronal cell culture models inhibition of the proteasome leads to cell death and formation of fibrillar ubiquitin and a- synuclein-positive inclusions, thus modeling some aspects of Lewy body diseases. The processes of inclusion formation and neuronal cell death share some common mechanisms, but can also be dissociated at a certain level.