TY - JOUR
T1 - Neuromancer1 and Neuromancer2 regulate cell fate specification in the developing embryonic CNS of Drosophila melanogaster
AU - Leal, S. M.
AU - Qian, L.
AU - Lacin, H.
AU - Bodmer, R.
AU - Skeath, J. B.
N1 - Funding Information:
We thank Tanya Wolff for providing many second and third chromosomal deficiency lines as well as the Bloomington Stock Center for other deficiency stocks and mutant alleles. We also thank Marita Buescher for the deficiency line Df(2L)x528 and Ian Duncan for the eve ID19 mutant alleles. We thank Rob Jackson for the gift of glutamic acid decarboxylase antibody, Ross Cagan for Repo antibody, both Y. Wairkar and A. DiAntonio for the DVGLUT antibody generated by Daniels et al. (2004) as well as Paul Taghert for providing serotonin antibody. S.M.L. was supported by a Ford Foundation Postdoctoral Diversity Fellowship and a Grant-in-Aid administered by the Ford Foundation. L.Q was supported by an American Heart Association Predoctoral Fellowship. S.M.L. thanks Jake Schaefer and Mohamed Elasri for helpful comments on the manuscript. This research was funded by an NIHBI grant (1 RO1 HL54732) to R.B. and an NINDS grant (RO1 NS036570) to J.B.S.
PY - 2009/1/1
Y1 - 2009/1/1
N2 - T-box genes encode a large family of transcription factors that regulate many developmental processes in vertebrates and invertebrates. In addition to their roles in regulating embryonic heart and epidermal development in Drosophila, we provide evidence that the T-box transcription factors neuromancer1 (nmr1) and neuromancer2 (nmr2) play key roles in embryonic CNS development. We verify that nmr1 and nmr2 function in a partially redundant manner to regulate neuronal cell fate by inhibiting even-skipped (eve) expression in specific cells in the CNS. Consistent with their redundant function, nmr1 and nmr2 exhibit overlapping yet distinct protein expression profiles within the CNS. Of note, nmr2 transcript and protein are expressed in identical patterns of segment polarity stripes, defined sets of neuroblasts, many ganglion mother cells and discrete populations of neurons. However, while we observe nmr1 transcripts in segment polarity stripes and specific neural precursors in early stages of CNS development, we first detect Nmr1 protein in later stages of CNS development where it is restricted to discrete subsets of Nmr2-positive neurons. Expression studies identify nearly all Nmr1/2 co-expressing neurons as interneurons, while a single Eve-positive U/CQ motor neuron weakly co-expresses Nmr2. Lineage studies map a subset of Nmr1/2-positive neurons to neuroblast lineages 2-2, 6-1, and 6-2 while genetic studies reveal that nmr2 collaborates with nkx6 to regulate eve expression in the CNS. Thus, nmr1 and nmr2 appear to act together as members of the combinatorial code of transcription factors that govern neuronal subtype identity in the CNS.
AB - T-box genes encode a large family of transcription factors that regulate many developmental processes in vertebrates and invertebrates. In addition to their roles in regulating embryonic heart and epidermal development in Drosophila, we provide evidence that the T-box transcription factors neuromancer1 (nmr1) and neuromancer2 (nmr2) play key roles in embryonic CNS development. We verify that nmr1 and nmr2 function in a partially redundant manner to regulate neuronal cell fate by inhibiting even-skipped (eve) expression in specific cells in the CNS. Consistent with their redundant function, nmr1 and nmr2 exhibit overlapping yet distinct protein expression profiles within the CNS. Of note, nmr2 transcript and protein are expressed in identical patterns of segment polarity stripes, defined sets of neuroblasts, many ganglion mother cells and discrete populations of neurons. However, while we observe nmr1 transcripts in segment polarity stripes and specific neural precursors in early stages of CNS development, we first detect Nmr1 protein in later stages of CNS development where it is restricted to discrete subsets of Nmr2-positive neurons. Expression studies identify nearly all Nmr1/2 co-expressing neurons as interneurons, while a single Eve-positive U/CQ motor neuron weakly co-expresses Nmr2. Lineage studies map a subset of Nmr1/2-positive neurons to neuroblast lineages 2-2, 6-1, and 6-2 while genetic studies reveal that nmr2 collaborates with nkx6 to regulate eve expression in the CNS. Thus, nmr1 and nmr2 appear to act together as members of the combinatorial code of transcription factors that govern neuronal subtype identity in the CNS.
KW - CNS development
KW - Even-skipped
KW - Neuroblast lineage
KW - Neuromancer1/2
KW - T-box transcription factors
UR - http://www.scopus.com/inward/record.url?scp=57849112703&partnerID=8YFLogxK
U2 - 10.1016/j.ydbio.2008.10.006
DO - 10.1016/j.ydbio.2008.10.006
M3 - Article
C2 - 19013145
AN - SCOPUS:57849112703
SN - 0012-1606
VL - 325
SP - 138
EP - 150
JO - Developmental Biology
JF - Developmental Biology
IS - 1
ER -