ISSN:
1432-0878
Keywords:
Neural repair
;
Glia
;
Cell deployment
;
Haemocytes
;
Scanning electron microscopy (SEM)
;
Insect (Periplaneta americana)
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Medicine
Notes:
Summary In Periplaneta americana, SEM of abdominal nervous connectives revealed a rapid accumulation of haemocytes on the surface of the neural lamella within 24 h of selective disruption of the underlying neuroglia by ethidium bromide. After 4 days the neural lamella was effectively clear of adhering haemocytes, but showed characteristic “blisters”, which, it is postulated, represented the points of entry of the cells from the haemocoel into the underlying tissues. A notable subsequent feature was a substantial increase in the number of cells within repairing connectives. Initially, there was a marked asymmetry in their distribution, with significantly higher numbers of cells anterior to, and within, the lesion area. It seems likely that this polarity resulted from differential cell division within the connectives. The initial asymmetry disappeared after seven days. However, increased perineurial cell numbers were maintained in the lesion area after one month and were still apparent two months after selective glial disruption. There was no equivalent increase in cell numbers in the lesion zone of cultured cords or, in vivo, after injection of the DNA-scission drug, bleomycin, treatments which preclude haemocyte involvement. It is suggested that in the absence of haemocytes and with suppression of proliferation by endogenous cells, repair is achieved by redeployment or growth of adjacent, undamaged glia.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00216554
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