Summary
In the tobacco hornworm,Manduca sexta, the epidermis which underlies the larval crochets is the first tissue to become independent of the prothoracic glands (PG) in a larval molt. In each successive larval molt, crochet forming cells increase in size, form hooks at their distal ends and, finally, secrete cuticle. This paper examines the endocrine requirements for competence to molt and describes parallel cultures in vivo and in vitro to define the hormonal control of crochet molting. When implanted into a fourth instar host larva prior to initiation of the last larval molt, competent crochet epidermis molted, forming crochets synchronously with its host. In the fourth instar, competence to form crochets is attained slowly during the first two days following ecdysis from the third instar. During the feeding phase of the fifth (last) instar, the crochet epidermis remains competent to molt (to form an extra “sixth instar” set of crochets) until the larva attains a weight of about 4.5 gm. Then, concurrent with the decline in the titer of juvenile hormone (JH) in the hemolymph, competence to form crochets declines. A similar loss of competence did not occur when fourth instar crochet epidermis was exposed to a declining JH titer by culture in either fourth instar isolated abdomens for 72 h or in fifth instar host larvae between 4 and 7 gm. Responses of crochet epidermis cultured in vitro also were examined. Competent fourth instar crochet epidermis formed crochets following 3–6 h exposure to ecdysone in vitro. Six ×10−7M β-ecdysone was required for 50% response, whereas a 10–50-fold higher concentration of α-ecdysone was necessary. Although formation of morphologically complete crochets in vitro proceeded with similar time course to that in situ, no molt-induced growth occurred in vitro. When crochet epidermis was exposed to ecdysone in vitro immediately after explantation, exogenous JH was not required for molting. But when tissue was first cultured for 72 h without hormones, subsequent molting in vitro could not be elicited, although molting still could occur when the tissue subsequently was implanted into a fourth instar host. Exposure to corpora allata or to JH during the 72 h of culture in vivo partially prevented the loss in capacity to respond to ecdysone in vitro, suggesting that JH may be one factor involved directly or indirectly in maintenance of tissue responsiveness.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Agui, N.: Quantitative bioassay of moulting hormonein vitro. Appl. Ent. Zool.8, 236–239 (1973)
Agui, N., Fukaya, M.: Effects of moulting hormones and prothoracic glands on the development of wing discs of the cabbage armyworm (Mamestra brassicae L.)in vitro (Lepidoptera: Noctuidae). Appl. Ent. Zool.8, 73–82 (1973)
Ashburner, M.: Sequential gene activation by ecdysone in polytene chromosomes ofDrosophila melanogaster. I. Dependence upon ecdysone concentration. Dev. Biol.35, 47–61 (1973)
Bodenstein, D.: Hormones and tissue competence in the development ofDrosophila, Biol. Bull.84, 34–58 (1943)
Clever, U., Clever, I., Storbeck, I., Young, N.L.: The apparent requirement of two hormones, α- and β-ecdysone, for molting induction in insects Dev. Biol.31, 47–60 (1973)
Doane W.W.: Role of hormones in insect development. In: Counce, S.J., Waddington, C.H. (eds.), Developmental Systems: Insects. Vol. 2, 291–497, New York: Academic Press. 1973
Ephrussi, B., Beadle, G.W.: A technique of transplantation forDrosophila. Amer. Nat.70, 218–225 (1936)
Fain, M.J.: Endocrine physiology of larval molting in the tobacco hornworm. Ph. D. Thesis, Harvard University. 1975
Fain, M.J., Riddiford, L.M.:In vivo andin vitro response of larval crochet epidermis to ecdysone and juvenile hormone. Amer. Zool.13, 1272 (1973)
Fain, M.J., Riddiford, L.M.: Juvenile hormone titers in the hemolymph during late larval development of the tobacco hornworm,Manduca sexta (L.). Biol. Bull.149, 506–521 (1975)
Fain, M.J., Riddiford, L.M.: Reassessment of the critical periods for prothoracicotropic hormone and juvenile hormone secretion in the tobacco hornworm,Manduca sexta. Gen. Comp. Endocrin.30, 131–141 (1976)
Fracker, S.B.: The classification of Lepidopteran larvae. Illin. Biol. Monogr.2, 1–169 (1915)
Fristrom, J.W., Logan, W.R., Murphy, C.: The synthetic and minimal culture requirements for evagination of imaginal discs ofDrosophila melanogaster in vitro. Dev. Biol.33, 441–456 (1973)
Gateff, E., Schneiderman, H.A.: Developmental capacities of immature eye-antennal imaginal discs ofDrosophila melanogaster. Wilhelm Roux' Archiv176, 171–189 (1975)
Grace, T.D.C.: Establishment of four strains of cells from insect tissues grownin vitro. Nature195, 788–789 (1962)
Imms, A.D.:General Textbook of Entomology (9th ed., revised), pp. 524–526. London: Methuen and Co., Ltd., 1957
Judy, K.J., Gilbert, L.I.: Effect of juvenile hormone and molting hormone on rectal pad development inHyalophora cecropia (L.) J. Morphol.131, 301–314 (1970)
King, D.S.: Ecdysone metabolism in insects. Amer. Zool.12, 343–345 (1972)
Kurushima, M., Ohtaki, T.: Relation between cell number and pupal development of wing disks inBombyx mori. J. Insect Physiol.21, 1705–1712 (1975)
Marks, E.P.: Effects of β-ecdysone on molt linked differentiationin vitro. Biol. Bull.145, 171–179 (1973)
Meltzer, Y.L.:Hormonal andAttractant Pesticide Technology, Park Ridge, New Jersey: Noyes Data Corp., 1971
Milner, M.J., Sang, J.H.: Relative activites of α- and β-ecdysone for the differentiationin vitro ofDrosophila melanogaster imaginal discs. Cell3, 141–143 (1974)
Mindek, G.: Metamorphosis of imaginal discs ofDrosophila melanogaster. Wilhelm Roux' Archiv169, 353–356 (1972)
Mindek, G., Nothinger, R.: Parameters influencing the acquisition of competence for metamorphosis in imaginal disks ofDrosophila. J. Insect Physiol.19, 1711–1720 (1973)
Mitsui, T., Riddiford, L.M.: Pupal cuticle synthesis byManduca epidermisin vitro: patterns of ecdysone sensitivity. Develop. Biol.54, 172–186 (1976)
Nijhout, H.F.: The role of ecdysone in pupation ofManduca sexta. J. Insect Physiol.22, 453–463 (1976)
Nijhout, H.F., Williams, C.M.: Control of moulting and metamorphosis in the tobacco hornworm,Manduca sexta (L.): growth of the last-instar larva and the decision to pupate. J. Exp. Biol.61, 481–491 (1974a)
Nijhout, H.F., Williams, C.M.: Control of moulting and metamorphosis in the tobacco hornworm,Manduca sexta (L.): cessation of juvenile hormone secretion as a trigger for pupation. J. Exp. Biol.61, 493–501 (1974b)
Oberlander, H.: Effects of ecdysone, ecdysterone and inokosterone on thein vitro initiation of metamorphosis of the wing disks ofGalleria mellonella J. Insect Physiol.15, 297–304 (1969)
Oberlander, H.: Biological activity of insect ecdysones and analoguesin vitro. Experientia,30, 1409–1410 (1975)
Ohmori, K., Ohtaki, T.: Effects of ecdysone analogues on development and metabolic activity of wing disks of the fleshfly,Sarcophaga peregrina, in vitro. J. Insect Physiol19, 1199–1210 (1973)
Peterson, A.:Larvae of Insects. The author, Columbus, Ohio. 1948
Piepho, H.: Wachstum und totale Metamorphose an Hautimplantaten bei der WachsmotteGalleria mellonella L. Biol. Zentrlbl.58, 356–366 (1938a)
Piepho, H.: Über die Auslösung der Raupenhäutung, Verpuppung und Imaginalentwicklung an Hautimplantaten von Schmetterlingen. Biol. Zentrlbl.58, 481–495 (1938b)
Piepho, H. Über die experimentelle Auslösbarkeit überzahliger Hautungen und vorzeitiger Verpuppung an Hautstücken bei Kleinschmetterlingen. Naturwiss.26, 841–842 (1938c)
Pittendrigh, C.S.: On the mechanism of entrainment of a circadian rhythm by light cycles. InCircadian Clocks (J. Aschoff, ed.). pp. 276–297 Amsterdam: North-Holland Publ. Co., 1965
Riddiford, L.M.: Hormonal control of insect epidermal cell commitmentin vitro. Nature259, 115–117 (1976a)
Riddiford, L.M.: Juvenile hormone control of epidermal commitmentin vivo andin vitro. InJuvenile Hormones (L.I. Gilbert, Ed.), pp. 198–219. New York: Plenum Press 1976
Robertson, J., Pipa, R.: Metamorphic shortening of interganglionic connectives ofGalleria mellonella (Lepidoptera)in vitro: stimulation by ecdysone analogues. J. Insect Physiol.19, 673–679 (1973)
Sanburg, L.L., Kramer, K.J., Kezdy, J., Law, J.H.: Juvenile hormone specific esterases in the haemolymph of the tobacco hornworm,Manduca sexta. J. Insect Physiol.21, 873–888 (1975)
Schubiger, G.: Acquisition of differentiative competence in the imaginal leg discs ofDrosophila. Wilh. Roux' Arch.174 303–311 (1974)
Truman, J.W.: Physiology of insect rhythmns. I. Circadian organization of the endocrine events underlying the moulting cycle of larval tobacco hornworms. J. Exp. Biol.57, 805–820 (1972)
Truman, J.W., Riddiford, L.M.: Physiology of insect rhythms III. The temporal organization of the endocrine events underlying pupation of the tobacco hornworm. J. Exp. Biol.60, 371–382 (1974)
Truman, J.W., Riddiford, L.M., Safranek, L.: Temporal patterns of response to ecdysone and juvenile hormone in the epidermis of the tobacco hornworm,Manduca sexta. Develop. Biol.39, 247–262 (1974)
Ursprung, H.:In vitro culture ofDrosophila imaginal discs. InMethods in Developmental Biology (F.H. Wilt and N.K. Wessells, eds.), pp. 485–492 New York: Thomas Crowell Co. 1967
Weirich, G., Wren, J., Siddall, J.B.: Developmental changes of the juvenile hormone esterase activity in haemolymph of the tobacco hornworm,Manduca sexta. J. Insect Biochem.3, 397–407 (1973)
Wigglesworth, V.B.: The function of the corpora allata in growth and reproduction ofRhodnius prolixus. J. Microsc. Sci.79, 91–121 (1936)
Wigglesworth, V.B.: The determination of characters at metamorphosis inRhodnius prolixus. J. Exp. Biol.17, 201–222 (1940)
Wigglesworth, V.B.: The significance of “chromatin droplets” in the growth of insects. Quart. J. Microsc. Sci.83, 141–152 (1942)
Williams, C.M.: The juvenile hormone I. Endocrine activity of the corpora allata of the adult Cecropia silkworm. Biol. Bull.116, 323–338 (1959)
Williams, C.M.: Ecdysone and ecdysone analogs: their assay and action on diapausing pupae of Cynthia silkworm. Biol. Bull.134, 344–355 (1968)
Wyatt, S.S.: Culturein vitro of tissue from the silkwormBombyx mori. J. Gen. Physiol.39, 841–852 (1956)
Author information
Authors and Affiliations
Additional information
Preliminary presentation of some of this work given at the December, 1973 Meeting of the American Society of Zoologists (Fain and Riddiford, 1973)
Rights and permissions
About this article
Cite this article
Fain, M.J., Riddiford, L.M. Requirements for molting of the crochet epidermis of the tobacco hornworm larva in vivo and in vitro. Wilhelm Roux' Archiv 181, 285–307 (1977). https://doi.org/10.1007/BF00848057
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00848057