Vestigial Brain Melanocyte Development During Embryogenesis of an Anural Ascidian: (anural development/brain melanocyte differentiation/ovoviviparity/evolution).

Abstract

Anural development was examined in the ascidian Bostrichobranchus digonas using specific markers for differentiated urodele ascidian larval cells and tissues. In this ovoviviparous anural ascidian, eggs, embryos and developing juveniles were present in the gonads, brood sacs, and atrial cavity, respectively. Morphological studies indicated that B. digonas embryos do not develop into tailed larvae with an extended notochord and differentiated muscle cells. In addition, these embryos lack detectable expression of the muscle-specific markers acetylcholinesterase, alpha actin, and myosin heavy chain. In striking contrast to other anural ascidian embryos, however, B. digonas embryos can develop tyrosinase in several melanocyte precursor cells and eventually form a brain pigment cell. The melanocyte does not become part of a definitive brain sensory organ (otolith) and subsequently disappears during metamorphosis. A period of tyrosinase expression was also observed following metamorphosis in which many tyrosinase-positive cells appear in the body of the developing juvenile. The results demonstrate that different urodele features can be uncoupled during the evolution of anural development. The development of a vestigial brain melanocyte also suggests that B. digonas evolved from a urodele ancestor rather than from another anural ascidian lacking a brain pigment cell.