Orthograde and retrograde axonal transport of calmodulin in a cat noradrenergic neurone.

Subcellular distribution studies of calmodulin in cat sympathetic ganglia demonstrated that about 90% of the protein remained in the 27,000 g supernatant, suggesting that it is a cytosolic protein. Only 4.5% was recovered in the microsomal fraction pellet. The inferior mesenteric ganglia contained 93.3 +/- 3 ng calmodulin per ganglion, and segments of unligated cat hypogastric nerves had 6.53 +/- 0.32 ng per 5 mm segment. When the nerve was ligated in the middle and left in the cat for 1-6 days, substantial amounts of calmodulin accumulated in segments of nerve immediately proximal (P1) and distal (D1) to the ligature. The amounts found in P1 amounted to 15.3, 20, 30.4 and 39.4 ng calmodulin per 5 mm segment 1, 2, 3 and 6 days after ligation, respectively. The average rate of transport was 5.5 mm per day, which corresponds to a slow component b of axonal transport (SCb). The accumulation of calmodulin in D1 was also increased with the time of ligation. After 1, 2, 3 and 6 days, the amounts of the protein found in D1 were 14.4, 17.7, 19 and 21 ng per 5 mm segment, respectively. The calculated mean rate for the retrograde transport was 3.9 mm per day. Decentralization of the inferior mesenteric ganglia did not affect the rate of accumulation of calmodulin or the basal amounts found in ganglia and nerves. Local injection inhibited the orthograde, but not the retrograde axonal transport of the protein. It is concluded that calmodulin undergoes a process of slow orthograde axonal transport probably incorporated into the axoplasmic matrix of a network of actin microfilaments. The protein is also transported in a retrograde manner.