Early events in annelid regeneration: a cellular perspective

Abstract

The ability to regenerate extensive portions of the body is widespread among the phylum Annelida and this group includes some of the most highly regenerative animals known. Knowledge of the cellular and molecular basis of regeneration in this group is thus important for understanding how regenerative processes have evolved both within the group and across animal phyla. Here, the cellular basis of annelid regeneration is reviewed, with a focus on the earliest steps of regeneration, namely wound-healing and formation of the blastema. Information from a wide range of annelids is compiled in order to identify common and variable elements. There is a large body of valuable older literature on the cellular basis of regeneration in annelids and an effort is made to review this literature in addition to more recent studies. Annelids typically seal the wound through muscular contraction and undergo some autolysis of tissue at the site of the wound. Bodily injury elicits extensive cell migration toward the wound, involving several different types of cells. Some migrating cells form a tissue-clot and phagocytize damaged tissues, whereas others are inferred to contribute to regenerated tissue, specifically mesodermal tissue. In one annelid subgroup, the clitellates, a group of mesodermal cells, sometimes referred to as neoblasts, is inferred to migrate over considerable distances, with cells moving to the wound from several segments away. Epidermis and gut epithelia severed upon amputation typically heal by fusing with like tissue, although not always. After amputation, cellular contacts with the extracellular matrix are disrupted and major changes in cell morphology and adhesion occur within tissues near the wound. Interactions of tissues at the wound appear key for initiating a blastema, with a particularly important role suggested for the ventral nerve cord, although species are variable in this regard; longer-distance effects mediated by the brain are also reported. The anterior-posterior polarity of the blastema can be mis-assigned, leading most commonly to double-headed worms, and the dorsal-ventral polarity of the blastema appears to be induced by the ventral nerve cord. The blastema is thought to arise from contributions of all three tissue layers, with each layer replacing itself in a tissue-specific manner. Blastemal cells originate mostly locally, although some long-distance migration of source-cells is suggested in clitellates. A number of important questions remain about the cellular basis of regeneration in annelids and addressing many of these would be greatly aided by developing approaches to identify and isolate specific cell types and techniques to image and trace cells in vivo.