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A history of mammalian embryological research.
Int J Dev Biol. 2001; 45(3):457-67.IJ

Abstract

Although Reinier DE GRAAF (1641-1673) can be considered the founder of modern reproductive biology, scientific knowledge of mammalian development did not progress significantly until the XlXth century. Determining contributions to this progress were the discovery of the ovum by Karl von BAER (1792-1876), his meticulous observations of the stages of embryogenesis, and, half a century later, the remarkable descriptions made by Edouard VAN BENEDEN (1845-1910) of egg development in rabbits and bats. Yet mammalian embryology remained a purely descriptive discipline until the second half of the XXth century, when a handful of exceptional scientists (notably including John D. BIGGERS, Ralph BRINSTER, Anne McLAREN, and W. WHITTEN) managed to obtain reproducibly the development of mouse eggs in a chemically defined medium and to transfer the eggs to the uterine horns of pseudopregnant females. Around the same time (1959), M.C. CHANG was the first to obtain a mammal (a rabbit) by in vitro fertilisation, thus opening the way to assisted procreation. This was achieved in our species in 1978, by Robert EDWARDS and Patrick STEPTOE. With these feats, mammalian embryology could at last become causal, as A. BRACHET already in 1912 had hoped it would. New concepts soon emerged from the delicate manipulations performed on mouse eggs by scientists such as A. TARKOWSKI, B. MINTZ, J. MULNARD, and R. GARDNER, concepts such as the oustside-inside hypothesis proposed to explain the determination of the ICM and trophectoderm or the clonal theory of cell determination during development. These new ideas were soon to become the focus of intense study. Other investigators, interested in the synthesis and roles of macromolecules, contributed in the late 1960's most of our knowledge on global trends in gene expression during the first stages of development. As for the many unfruitful attempts to obtain artificial parthenogenetic development in mice, these would lead to the discovery of parental genetic imprinting. In the 1950's, Leroy STEVENS and Barry PIERCE made famous a very rare tumour, the teratocarcinoma. This tumour soon became a model for studying mammalian development, adopted by an increasing number of research groups. It became the source of a first generation of pluripotent cells culturable in vitro: embryonal carcinoma (EC) cells. In the 1980's came the next generation: embryonic stem (ES) cells derived from the ICM of blastocysts, whose advent coincided with that of the first transgenic mice. Then came the era of knockout mice and cloning. Scientists now envisage with enthusiasm applications that were unimaginable just a few years ago. Such is the legacy of those few pioneers of the experimental embryology of mammals who, in the late fifties, were striving to make the wish expressed by A. Brachet in 1912 come true at last.

Authors+Show Affiliations

Service de Biologie et Embryologie, Faculté de Médecine et de Pharmacie, Université de Mons-Hainaut, Belgium. henri.alexandre@umh.ac.be

Pub Type(s)

Historical Article
Journal Article

Language

eng

PubMed ID

11417885

Citation

Alexandre, H. "A History of Mammalian Embryological Research." The International Journal of Developmental Biology, vol. 45, no. 3, 2001, pp. 457-67.
Alexandre H. A history of mammalian embryological research. Int J Dev Biol. 2001;45(3):457-67.
Alexandre, H. (2001). A history of mammalian embryological research. The International Journal of Developmental Biology, 45(3), 457-67.
Alexandre H. A History of Mammalian Embryological Research. Int J Dev Biol. 2001;45(3):457-67. PubMed PMID: 11417885.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - A history of mammalian embryological research. A1 - Alexandre,H, PY - 2001/6/22/pubmed PY - 2002/1/17/medline PY - 2001/6/22/entrez SP - 457 EP - 67 JF - The International journal of developmental biology JO - Int J Dev Biol VL - 45 IS - 3 N2 - Although Reinier DE GRAAF (1641-1673) can be considered the founder of modern reproductive biology, scientific knowledge of mammalian development did not progress significantly until the XlXth century. Determining contributions to this progress were the discovery of the ovum by Karl von BAER (1792-1876), his meticulous observations of the stages of embryogenesis, and, half a century later, the remarkable descriptions made by Edouard VAN BENEDEN (1845-1910) of egg development in rabbits and bats. Yet mammalian embryology remained a purely descriptive discipline until the second half of the XXth century, when a handful of exceptional scientists (notably including John D. BIGGERS, Ralph BRINSTER, Anne McLAREN, and W. WHITTEN) managed to obtain reproducibly the development of mouse eggs in a chemically defined medium and to transfer the eggs to the uterine horns of pseudopregnant females. Around the same time (1959), M.C. CHANG was the first to obtain a mammal (a rabbit) by in vitro fertilisation, thus opening the way to assisted procreation. This was achieved in our species in 1978, by Robert EDWARDS and Patrick STEPTOE. With these feats, mammalian embryology could at last become causal, as A. BRACHET already in 1912 had hoped it would. New concepts soon emerged from the delicate manipulations performed on mouse eggs by scientists such as A. TARKOWSKI, B. MINTZ, J. MULNARD, and R. GARDNER, concepts such as the oustside-inside hypothesis proposed to explain the determination of the ICM and trophectoderm or the clonal theory of cell determination during development. These new ideas were soon to become the focus of intense study. Other investigators, interested in the synthesis and roles of macromolecules, contributed in the late 1960's most of our knowledge on global trends in gene expression during the first stages of development. As for the many unfruitful attempts to obtain artificial parthenogenetic development in mice, these would lead to the discovery of parental genetic imprinting. In the 1950's, Leroy STEVENS and Barry PIERCE made famous a very rare tumour, the teratocarcinoma. This tumour soon became a model for studying mammalian development, adopted by an increasing number of research groups. It became the source of a first generation of pluripotent cells culturable in vitro: embryonal carcinoma (EC) cells. In the 1980's came the next generation: embryonic stem (ES) cells derived from the ICM of blastocysts, whose advent coincided with that of the first transgenic mice. Then came the era of knockout mice and cloning. Scientists now envisage with enthusiasm applications that were unimaginable just a few years ago. Such is the legacy of those few pioneers of the experimental embryology of mammals who, in the late fifties, were striving to make the wish expressed by A. Brachet in 1912 come true at last. SN - 0214-6282 UR - https://www.unboundmedicine.com/medline/citation/11417885/A_history_of_mammalian_embryological_research_ L2 - http://www.intjdevbiol.com/paper.php?doi=11417885 DB - PRIME DP - Unbound Medicine ER -