Focally administered nerve growth factor suppresses molecular regenerative responses of axotomized peripheral afferents in rats

Effects of delivery of nerve growth factor, from a catheterized osmotic mini-pump to the proximal stump of a transected sciatic nerve, were compared with the effects of normal saline. A pilot measured retrograde axonal transport of nerve growth factor to determine a pump concentration which raised axonal transport ipsilaterally, but not contralaterally. The effects of this delivery over 12 days were then determined on expression of growth-associated protein-43, trkA, p75(NTR) and preprotachykinin A ipsilateral and contralateral to the pump in dorsal root ganglia at L-4 and L-5 (pooled). Ganglionic expression was measured both as messenger RNA and protein. Axotomy (saline pumps) increased growth-associated protein-43 messenger RNA (318 +/- 14%. all changes are percent of contralateral, non-axotomized ganglia with saline pumps) and immunoreactivity (431 +/- 43%). The increase was significantly less (P < 0.001) ipsilateral to nerve growth factor pumps (191 +/- 45%). Axotomy reduced expression of p75(NTR) (messenger RNA: 52 +/- 17%, P < 0.01: immunoreactivity: 74 +/- 3%, P < 0.05). These decreases were converted to increases by nerve growth factor delivery (respectively 143 +/- 40% and 281 +/- 67%; both P < 0.01). With trkA, axotomy decreased the expression of the messenger RNA (68 +/- 40%, P < 0.01) and of the primary translation product-110,000 mol. wt protein (55 +/- 12%, P < 0.01)-but not the fully glycosylated trkA protein (mol, wt 145,000). Nerve growth factor delivery did not affect trkA expression. Axotomy reduced messenger RNA for the substance P precursor, preprotachykinin A, to 42 +/- 17% (P < 0.01) and this reduction was prevented by nerve growth factor treatment. We suggest that the primary effect of nerve growth factor on axotomized C-fibres is not to promote regeneration, although that may be its secondary effect via an action on Schwann cells. It is possible that reduced neuronal sensitivity to nerve growth factor during regeneration is advantageous in suppressing nociception. (C) 1999 IBRO. Published by Elsevier Science Ltd.