The V and P ectoblasts are arranged in rows along the body axis. Many of the V and also the P cells undergo identical sequences of divisions and generate the same cell types. However in certain regions, for example the hermaphrodite vulval region and the male preanal region, V and P cells generate more complex lineages than their homologs. Immigrating sex myoblasts also produce sex muscles in these regions. We wish to understand how these specialized regions are defined and diversified.
mab-5 may provide a clue. Putative
mab-5 null mutations specifically eliminate nearly all preanal specialization. In these mutants, cells in this region develop like their less specialized homologs located elsewhere.
mab-5 mutations alter two aspects of regional diversification, cell lineages and cell migration. These alterations are summarized in a table below. They are listed in more detail here. Changes in cell lineages. 1. Lateral hypodermis. In
mab-5 mutants, the male V5 and V6 cells do not generate male-specific ray lineages. Instead, these cells follow developmental sequences characteristic of their hermaphrodite homologs. (The V5 postdeirid and T are unaffected.) 2. Ventral Pn.p hypodermal precursors. In
mab-5 males, P(9-11).p do not divide during the third larval stage. These nuclei were found within the large
hyp7 syncytium in serial section EM reconstructions of an adult
mab-5 male. Ross Francis's MH27 monoclonal antibody, which outlines cell boundaries at known positions of desmosomes, has proved useful in determining the likely time of cell fusion with
hyp7. In
mab-5 males, P(9-11).p generally lose their antibody staining during L1 lethargus, suggesting that they fuse with
hyp7 at this time. The fusion of P(7,8).p is also altered. In normal males, these cells lose their staining during L1 lethargus. (Unlike P(3-6).p, which, surprisingly, continue to stain with MH27). In
mab-5 males P(7, 8).p behave like normal P(3-6).p. The fact that P(7,8).p do not fuse during L1 lethargus may explain the phenotype of
mab-5 77)dom males. In
lin-12(
n177) single mutants, P(3-6).p, but not P(7,8).p, generate pseudovulvae (1). In contrast, in
mab-5(
e1239) 77) double mutants, all P(3-8).p generate pseudovulvae. P12.p is usually normal in
mab-5 animals. However, in
mab-5 animals of both sexes, P12.p often does not divide, but fuses with
hyp7. A puzzling observation is that at a lower frequency,
p11.p is displaced posteriorly, and appears to adopt the fate of normal P12.p. The fates of Pn.p cells that lie outside this region appear to be normal. In particular, vulval morphology is normal (although cell lineages have not yet been determined), and the animals are egg-laying proficient. 3. Pn.a neuroblasts. P(11,12).aaap (homologous to the VB motoneurons) normally undergo programmed cell death in both sexes. In
mab-5 mutants, these cells do not die, but acquire compact nuclei characteristic of neurons. In wild type males, P(9-11).aap divide. In
mab-5 mutants, they do not divide, but, like P2.aap, remain small, compact, and assume a dorsolateral position within the cord. At a low frequency these cells undergo programmed cell death. Other Pn.a derivatives appear to be unaffected. 4. Muscle.
mab-5 mutations affect the development of the unique postembryonic myoblast M, located in the preanal region. The L1 M division pattern in
mab-5 animals is variable. In both sexes, M derivatives that would normally become body muscles become apparent sex myoblasts. These cells increase in size and divide repeatedly during the L3.
mab-5 hermaphrodites have never been observed to produce dorsal coelomocytes.