Segmental development of reticulospinal and branchiomotor neurons in lamprey: insights into the evolution of the vertebrate hindbrain

doi:10.1242/dev.00986

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First published online February 18, 2004
doi: 10.1242/10.1242/dev.00986

Development 131, 983-995 (2004)
Published by The Company of Biologists 2004

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Segmental development of reticulospinal and branchiomotor neurons in lamprey: insights into the evolution of the vertebrate hindbrain

Yasunori Murakami¹^,*, Massimo Pasqualetti²^,3, Yoko Takio¹, Shigeki Hirano⁴, Filippo M. Rijli² and Shigeru Kuratani¹

¹ Evolutionary Morphology Research Team, Center for Developmental Biology (CDB), RIKEN, Kobe, Japan
² Institut de Génétique et de Biologie Moléculaire et Cellulaire, UMR 7104, CNRS/INSERM/ULP, BP 10142-67404 Illkirch Cedex, CU de Strasbourg, France
³ Laboratori di Biologia Cellulare e dello Sviluppo, Università di Pisa, Via G. Carducci 13, Pisa, Italy
⁴ Department of Medical Technology, School of Health Sciences, Faculty of Medicine, Niigata University, Niigata 951-8518, Japan

^* Author for correspondence (e-mail: bothrops{at}cdb.riken.go.jp)

Accepted 14 November 2003

During development, the vertebrate hindbrain is subdivided alongits anteroposterior axis into a series of segmental bulges calledrhombomeres. These segments in turn generate a repeated patternof rhombomere-specific neurons, including reticular and branchiomotorneurons. In amphioxus (Cephalochordata), the sister group ofthe vertebrates, a bona fide segmented hindbrain is lacking,although the embryonic brain vesicle shows molecular anteroposteriorregionalization. Therefore, evaluation of the segmental patterningof the central nervous system of agnathan embryos is relevantto our understanding of the origin of the developmental planof the vertebrate hindbrain. To investigate the neuronal organizationof the hindbrain of the Japanese lamprey, Lethenteron japonicum,we retrogradely labeled the reticulospinal and branchial motoneurons.By combining this analysis with a study of the expression patternsof genes identifying specific rhombomeric territories such asLjKrox20, LjPax6, LjEphC and LjHox3, we found that the reticularneurons in the lamprey hindbrain, including isthmic, bulbarand Mauthner cells, develop in conserved rhombomere-specificpositions, similar to those in the zebrafish. By contrast, lampreytrigeminal and facial motor nuclei are not in register withrhombomere boundaries, unlike those of gnathostomes. The trigeminal-facialboundary corresponds to the rostral border of LjHox3 expressionin the middle of rhombomere 4. Exogenous application of retinoicacid (RA) induced a rostral shift of both the LjHox3 expressiondomain and branchiomotor nuclei with no obvious repatterningof rhombomeric segmentation and reticular neurons. Therefore, whereassubtype variations of motoneuron identity along the anteroposterior axismay rely on Hox-dependent positional values, as in gnathostomes,such variations in the lamprey are not constrained by hindbrainsegmentation. We hypothesize that the registering of hindbrainsegmentation and neuronal patterning may have been acquiredthrough successive and independent stepwise patterning changesduring evolution.

Key words: Evolution, Hindbrain, Rhombomere, Reticulospinal neuron, Branchiomotor neuron, Lamprey, Hox genes

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