Identification of the Bursicon-Containing Neurones in Abdominal Ganglia of the Tobacco Hornworm, Manduca Sexta

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Articles by TAGHERT, P. H.

Articles by TRUMAN, J. W.

Journal of Experimental Biology 98,385-401 (1982)
Published by Company of Biologists 1982

Identification of the Bursicon-Containing Neurones in Abdominal Ganglia of the Tobacco Hornworm, Manduca Sexta

PAUL H. TAGHERT ¹ and JAMES W. TRUMAN ²

¹ Department of Zoology, University of Washington Seattle, WA 98195; Department of Biological Sciences, Stanford University, Stanford, CA 94305(To whom correspondence should be addressed)
² Department of Zoology, University of Washington Seattle, WA 98195

The abdominal ganglion neurones responsible for the secretionof the peptide hormone bursicon from the transverse nerves ofthe tobacco hornworm Manduca sexta have been localized. Eachunfused abdominal ganglion produced bursicon during adult development.The hormone was then transported to the next posterior transversenerve for subsequent release following adult emergence. Of thetwo efferent pathways that connect ganglia to posterior transversenerves, only one had ultrastructural features consistent witha neurosecretory function. All axons in this pathway containednumerous, elementary, dense-cored granules with diameters rangingfrom 100 to 300 nm.

In pharate adults, cobalt back-filling ofthis neurosecretory pathway revealed two groups of cell bodiesin abdominal ganglia: three dorso-laterally and eight at themid-line. Hormonal activity was present in lateral regions ofthe ganglion but not in mid-line regions. In the dorso-lateralregion, four blueish cell bodies could be seen in the livingtissue. The two combined clusters of four cells from both sidesof the ganglion contained more than 60% of the bursicon activitypresent in the entire ganglion. More careful dissection of thecluster detected the presence of activity in cell pairs andindividual members.

Individual dye-fills of these blue cellsdemonstrated that three of these were the three lateral neuronesthat were back-filled from the transverse nerve. The fourthblue cell may be identical to a neurone whose axon travels inthe descending, contralateral connective and exits the nervoussystem via the next posterior ganglion. On the basis of dendriticgeometry, each of the neurones in the bursicon cell clustercould be identified as a unique, individual neurone.

Submitted on September 28, 1981

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