Quantification of N-CAM and N-cadherin expression in axotomized and crushed rat sciatic nerve.

Adhesion molecules are important in supporting axonal regeneration. Qualitative studies have described increased expression of neural cell adhesion molecule (NCAM) and N-cadherin in models of nerve injury allowing active regeneration. In this study we have used quantitative immunohistochemistry to compare expression of NCAM and N-cadherin after nerve injury either with active regeneration (crush) into the distal stump or without (axotomy and capping). Quantification was performed 15 days after axotomy in proximal and distal stumps. Quantification after crush either proximal, distal or within the crushed area was performed at 2, 7, 15 and 30 days after injury. Axotomy induced increases in expression in proximal stumps between two and three times those in uninjured nerves for both molecules. In distal stumps, N-cadherin levels increased seven-fold, yet NCAM levels did not exceed control values. After crush, NCAM immunoreactivity increased in the crushed area and distal stump in contrast to axotomy and NCAM-positive axons co-localized with PGP9.5. N-cadherin levels in the distal stump increased above control levels, but the magnitude of the increase seen after crush was different to those seen after axotomy. In conclusion, increased expression of adhesion molecules, particularly NCAM, in the distal stump of injured nerves is dependent upon the presence of regenerating axons.

Rapid alterations in cellular morphology and plasma membrane structure induced in rat thymocytes by mitogenic stimuli.

Under conditions where a maximum stimulation of 3-O-methyl-glucose transport is observed, three thymocyte mitogens (concanavalin A, ionophore A23187 and hydrogen peroxide) cause cell rounding and a decrease in the density of intra-membrane particles on the plasma membrane. The early effects of mitogens on the thymocyte plasma membrane are similar to those of osmotic shock.