Book contents
- Frontmatter
- Contents
- Editor, Associate Editors, Artistic Consultant, and Contributors
- Preface
- PART I CONTEXT
- 1 The Endothelium in History
- 2 Introductory Essay: Evolution, Comparative Biology, and Development
- 3 Evolution of Cardiovascular Systems and Their Endothelial Linings
- 4 The Evolution and Comparative Biology of Vascular Development and the Endothelium
- 5 Fish Endothelium
- 6 Hagfish: A Model for Early Endothelium
- 7 The Unusual Cardiovascular System of the Hemoglobinless Antarctic Icefish
- 8 The Fish Endocardium: A Review on the Teleost Heart
- 9 Skin Breathing in Amphibians
- 10 Avian Endothelium
- 11 Spontaneous Cardiovascular and Endothelial Disorders in Dogs and Cats
- 12 Giraffe Cardiovascular Adaptations to Gravity
- 13 Energy Turnover and Oxygen Transport in the Smallest Mammal: The Etruscan Shrew
- 14 Molecular Phylogeny
- 15 Darwinian Medicine: What Evolutionary Medicine Offers to Endothelium Researchers
- 16 The Ancestral Biomedical Environment
- 17 Putting Up Resistance: Maternal–Fetal Conflict over the Control of Uteroplacental Blood Flow
- 18 Xenopus as a Model to Study Endothelial Development and Modulation
- 19 Vascular Development in Zebrafish
- 20 Endothelial Cell Differentiation and Vascular Development in Mammals
- 21 Fate Mapping
- 22 Pancreas and Liver: Mutual Signaling during Vascularized Tissue Formation
- 23 Pulmonary Vascular Development
- 24 Shall I Compare the Endothelium to a Summer's Day: The Role of Metaphor in Communicating Science
- 25 The Membrane Metaphor: Urban Design and the Endothelium
- 26 Computer Metaphors for the Endothelium
- PART II ENDOTHELIAL CELL AS INPUT-OUTPUT DEVICE
- PART III VASCULAR BED/ORGAN STRUCTURE AND FUNCTION IN HEALTH AND DISEASE
- PART IV DIAGNOSIS AND TREATMENT
- PART V CHALLENGES AND OPPORTUNITIES
- Index
- Plate section
20 - Endothelial Cell Differentiation and Vascular Development in Mammals
from PART I - CONTEXT
Published online by Cambridge University Press: 04 May 2010
- Frontmatter
- Contents
- Editor, Associate Editors, Artistic Consultant, and Contributors
- Preface
- PART I CONTEXT
- 1 The Endothelium in History
- 2 Introductory Essay: Evolution, Comparative Biology, and Development
- 3 Evolution of Cardiovascular Systems and Their Endothelial Linings
- 4 The Evolution and Comparative Biology of Vascular Development and the Endothelium
- 5 Fish Endothelium
- 6 Hagfish: A Model for Early Endothelium
- 7 The Unusual Cardiovascular System of the Hemoglobinless Antarctic Icefish
- 8 The Fish Endocardium: A Review on the Teleost Heart
- 9 Skin Breathing in Amphibians
- 10 Avian Endothelium
- 11 Spontaneous Cardiovascular and Endothelial Disorders in Dogs and Cats
- 12 Giraffe Cardiovascular Adaptations to Gravity
- 13 Energy Turnover and Oxygen Transport in the Smallest Mammal: The Etruscan Shrew
- 14 Molecular Phylogeny
- 15 Darwinian Medicine: What Evolutionary Medicine Offers to Endothelium Researchers
- 16 The Ancestral Biomedical Environment
- 17 Putting Up Resistance: Maternal–Fetal Conflict over the Control of Uteroplacental Blood Flow
- 18 Xenopus as a Model to Study Endothelial Development and Modulation
- 19 Vascular Development in Zebrafish
- 20 Endothelial Cell Differentiation and Vascular Development in Mammals
- 21 Fate Mapping
- 22 Pancreas and Liver: Mutual Signaling during Vascularized Tissue Formation
- 23 Pulmonary Vascular Development
- 24 Shall I Compare the Endothelium to a Summer's Day: The Role of Metaphor in Communicating Science
- 25 The Membrane Metaphor: Urban Design and the Endothelium
- 26 Computer Metaphors for the Endothelium
- PART II ENDOTHELIAL CELL AS INPUT-OUTPUT DEVICE
- PART III VASCULAR BED/ORGAN STRUCTURE AND FUNCTION IN HEALTH AND DISEASE
- PART IV DIAGNOSIS AND TREATMENT
- PART V CHALLENGES AND OPPORTUNITIES
- Index
- Plate section
Summary
As the developing mammalian embryo expands beyond a small mass of cells, it acquires a need to establish circulation in order to facilitate communication among different parts of the embryo. It also must establish a mechanism for nutrition and oxygenation once simple diffusion becomes a limiting mechanism. These requirements provide a rationale for why the cardiovascular system is the first to function during mammalian development. An analysis of vascular development therefore provides a paradigm for understanding the general principles of organ development in mammals. Practical reasons also exist to elucidate the mechanisms by which blood vessels form. It is clear that defective vascular development contributes to a number of congenital conditions in humans, from hereditary angiomas to more complicated developmental syndromes. In addition, we now know that many pathological events in adults follow rules that resemble developmental events, such that understanding the latter can in form how we approach the former. In this chapter, we briefly review the field of vascular development from an historical perspective, after which the key steps in mammalian endothelial differentiation will be considered, with a focus on the molecular and cellular events that underlie the principles of developmental blood vessel formation.
HISTORICAL OVERVIEW
Consistent with its central importance in embryonic development, the history of research into vascular development is populated with seminal histologists such as Wilhelm His and Florence Sabin (see Chapter 1). Ideas about endothelial origin followed shortly after the development of histology and cell biology as fields of study.
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- Chapter
- Information
- Endothelial Biomedicine , pp. 161 - 166Publisher: Cambridge University PressPrint publication year: 2007
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