TY - JOUR
T1 - Differentiation of the body wall musculature in Macrostomum hystricinum marinum and Hoploplana inquilina (Plathelminthes), as models for muscle development in lower Spiralia
AU - Reiter, D
AU - Ladurner, P.
AU - Mair, G
AU - Salvenmoser, W
AU - Rieger, R
AU - Boyer, B
PY - 1996/5/1
Y1 - 1996/5/1
N2 - Recent studies on the differentiation of the body wall musculature in a medicinal leech and in the free-living plathelminth Macrostomum hystricinum marinum, Beklemischev 1950 provide the first evidence of a complex developmental signalling pattern, possibly involving stem cells and the nervous system, in the organization of the muscle grid formed by developing myocytes. To enhance further our understanding of the ontogenetic and phylogenetic origin of such muscle grids, which consist of circular, longitudinal and diagonal muscle fibres, we have undertaken a study of muscle development in the polyclad flatworm Hoploplana inquilina Wheeler 1894 in collaboration with the Marine Biological Laboratory, Woods Hole. We have also continued our examination of the development of the body wall musculature in M. hystricinum. Both species were studied using rhodamine-phalloidin staining and transmission electron microscopy. Additional visualization of the fluorescent whole mount preparations was performed with confocal laser microscopy and digital image processing. The results of our investigation suggest that: (1) the mechanism of muscle development in H. inquilina supports the deeply rooted concept of bilateral symmetry (right and left longitudinal founder muscle), and (2) a first circular muscle in this species develops on the border between an anterior body unit and the main body; a caudalmost region is less obvious. The presence of a spiral muscle functioning as a circular muscle system of the "head region" points to a separate developmental mechanism for this region and the trunk. In contrast to H. inquilina, where the larval stage forces an intermediate restructuring of the musculature of the body wall before the adult body shape is finally developed, the formation of the body wall musculature of M. hystricinum already seems constrained by the adult body shape.
AB - Recent studies on the differentiation of the body wall musculature in a medicinal leech and in the free-living plathelminth Macrostomum hystricinum marinum, Beklemischev 1950 provide the first evidence of a complex developmental signalling pattern, possibly involving stem cells and the nervous system, in the organization of the muscle grid formed by developing myocytes. To enhance further our understanding of the ontogenetic and phylogenetic origin of such muscle grids, which consist of circular, longitudinal and diagonal muscle fibres, we have undertaken a study of muscle development in the polyclad flatworm Hoploplana inquilina Wheeler 1894 in collaboration with the Marine Biological Laboratory, Woods Hole. We have also continued our examination of the development of the body wall musculature in M. hystricinum. Both species were studied using rhodamine-phalloidin staining and transmission electron microscopy. Additional visualization of the fluorescent whole mount preparations was performed with confocal laser microscopy and digital image processing. The results of our investigation suggest that: (1) the mechanism of muscle development in H. inquilina supports the deeply rooted concept of bilateral symmetry (right and left longitudinal founder muscle), and (2) a first circular muscle in this species develops on the border between an anterior body unit and the main body; a caudalmost region is less obvious. The presence of a spiral muscle functioning as a circular muscle system of the "head region" points to a separate developmental mechanism for this region and the trunk. In contrast to H. inquilina, where the larval stage forces an intermediate restructuring of the musculature of the body wall before the adult body shape is finally developed, the formation of the body wall musculature of M. hystricinum already seems constrained by the adult body shape.
U2 - 10.1007/bf00377221
DO - 10.1007/bf00377221
M3 - Article
C2 - 28306092
SN - 0930-035X
VL - 205
SP - 410
EP - 423
JO - Roux's Archives of Developmental Biology : the official organ of the EDBO
JF - Roux's Archives of Developmental Biology : the official organ of the EDBO
ER -