13 research outputs found

    Differential vulnerability of neurochemically identified subpopulations of retinal neurons in a monkey model of glaucoma.

    No full text
    The vulnerability of subpopulations of retinal neurons delineated by their content of cytoskeletal or calcium-binding proteins was evaluated in the retinas of cynomolgus monkeys in which glaucoma was produced with an argon laser. We quantitatively compared the number of neurons containing either neurofilament (NF) protein, parvalbumin, calbindin or calretinin immunoreactivity in central and peripheral portions of the nasal and temporal quadrants of the retina from glaucomatous and fellow non-glaucomatous eyes. There was no significant difference between the proportion of amacrine, horizontal and bipolar cells labeled with antibodies to the calcium-binding proteins comparing the two eyes. NF triplet immunoreactivity was present in a subpopulation of retinal ganglion cells, many of which, but not all, likely correspond to large ganglion cells that subserve the magnocellular visual pathway. Loss of NF protein-containing retinal ganglion cells was widespread throughout the central (59-77% loss) and peripheral (96-97%) nasal and temporal quadrants and was associated with the loss of NF-immunoreactive optic nerve fibers in the glaucomatous eyes. Comparison of counts of NF-immunoreactive neurons with total cell loss evaluated by Nissl staining indicated that NF protein-immunoreactive cells represent a large proportion of the cells that degenerate in the glaucomatous eyes, particularly in the peripheral regions of the retina. Such data may be useful in determining the cellular basis for sensitivity to this pathologic process and may also be helpful in the design of diagnostic tests that may be sensitive to the loss of the subset of NF-immunoreactive ganglion cells

    Apoptotic cell death makes a minor contribution to reperfusion injury in skeletal muscle in the rat

    Get PDF
    Objective: to determine if apoptotic cell death contributes to skeletal muscle reperfusion injury. Methods: leg ischaemia was induced in rats with a tourniquet and maintained for 4 h before reperfusion for 24 or 72 h. Apoptosis was assessed by morphology, in situ end labelling of DNA fragments, DNA laddering, expression of p53 mRNA and detection of caspase-3-like proteolytic activity. Results: increased caspase-3-like activity was detected in muscle following ischaemia and zero, 24 h or 72 h of reperfusion. Levels remained relatively low but with a highly significant difference in enzyme activity between the ischaemic and non-ischaemic legs (p <0.0001, Repeated Measures Analysis of Variance). Morphological examination showed considerable oedema, disruption of muscle fibres and infiltration of white cells into tissues. Muscle nuclei did not show any morphological evidence of apoptosis and were negative for DNA fragmentation, while occasional neutrophils contained fragmented DNA. Expression of p53 was not induced by ischaemia and reperfusion and DNA ladders were not detected. Conclusions: the cells undergoing apoptosis were infiltrating neutrophils rather than muscle cells and reperfused muscle was damaged largely by an inflammatory process involving considerable oedema.P.A. Cowled, L. Leonardos, S.H. Millard and R.A. Fitridg
    corecore