First published online June 20, 2008
Development 135, 1404e (2008)
© The Company of Biologists Limited
c-Myc essential for haematopoiesis
The transcription factor c-Myc regulates the expression of numerous genes
involved in many aspects of cellular function and its deregulation is
associated with a wide range of human tumours. However, the physiological role
of c-Myc during development is poorly understood. Now, two papers in this
issue suggest that c-Myc functions primarily in haematopoiesis during
mammalian development. First, on
p. 2467, Rong Wang
and colleagues report that c-Myc expression in the haematopoietic lineage
indirectly controls angiogenesis (the growth of new blood vessels from
pre-existing vessels). c-myc-null mouse embryos, which die by
embryonic day (E) 10.5, have many severe developmental abnormalities,
including a lack of elaborate blood vessels. To study the role of c-Myc in
vascular development, the researchers deleted the c-myc gene in
selected cell lineages using Cre-lox-mediated recombination. To their
surprise, the elimination of c-Myc in most endothelial cells in mouse embryos
did not abrogate the de novo differentiation of endothelial cells
(vasculogenesis) or their proliferation, survival and migration. The mutant
embryos also survived to beyond E12.5. By contrast, the elimination of c-Myc
in haematopoietic lineages alone caused defects in both haematopoiesis and
angiogenesis, suggesting that hematopoietic defects can disrupt angiogenesis.
Further insights into the role of c-myc during development are also
provided by Andreas Trumpp and colleagues on
p. 2455, who show
that the severe abnormalities previously seen in c-myc-null embryos
are largely absent when c-myc is eliminated specifically in the
epiblast, which suggests that the c-myc-null mutant phenotype results
mainly from placental insufficiency. Although the epiblast-restricted c-Myc
deficient embryos, which express c-Myc in placental but not in embryonic
cells, appear surprisingly normal, they still die around E12, the researchers
report. Specifically, these embryos have non-functional haematopoietic stem
cells, are anaemic because of apoptosis of erythrocyte precursors, and have
defective livers. Interestingly, the elimination of c-Myc in the hepatoblast
lineage alone did not affect liver or haematopoietic development, but the
elimination of c-Myc in the haematopoietic lineage affected both liver and
blood development. Thus, both these papers unexpectedly show that c-Myc
function is not required ubiquitously during development, but instead is
specifically essential for haematopoiesis, which then supports vascular and
liver development.
CiteULike 
Complore 
Connotea 
Del.icio.us 
Digg 
Reddit 
Technorati 
Twitter What's this?
Related articles in Development:
- Placental rescue reveals a sole requirement for c-Myc in embryonic erythroblast survival and hematopoietic stem cell function
- Nicole C. Dubois, Christelle Adolphe, Armin Ehninger, Rong A. Wang, Elisabeth J. Robertson, and Andreas Trumpp
Development 2008 135: 2455-2465.
[Abstract]
[Full Text]
- c-myc in the hematopoietic lineage is crucial for its angiogenic function in the mouse embryo
- Chen He, Huiqing Hu, Rickmer Braren, Shun-Yin Fong, Andreas Trumpp, Timothy R. Carlson, and Rong A. Wang
Development 2008 135: 2467-2477.
[Abstract]
[Full Text]
