Cancer and Developmental Biology Laboratory

Co-Chiefs
Alan O. Perantoni, Ph.D.
Ira O. Daar, Ph.D.

The interests of the Cancer and Developmental Biology Laboratory (CDBL) are centered on the analysis of embryonic development, particularly the mechanisms of growth control and the regulation of differentiation through growth factors, cytokines, and their receptors. The study of how embryos grow and develop from the fertilized egg is not only of intrinsic interest but also of relevance to understanding the origins and development of a wide variety of cancers. Many of the cellular processes involved in embryonic development (such as proliferation, adhesion, migration, and differentiation) are mediated by the actions of growth factors and their receptors. In many cancers, these same growth factors and receptors frequently are abnormally expressed or are even mutated to form oncogenes. Understanding the functions of these factors in development will deepen our knowledge of the biology of cancer. 

The Laboratory at present consists of six sections. The Differentiation and Neoplasia Section, directed by Dr. Alan Perantoni, is analyzing the functions of inductive cytokines in nephrogenesis and dysregulation of inductive signaling in nephroblastoma/Wilms tumor development. The Developmental Signal Transduction Section, directed by Dr. Ira Daar, focuses on the mechanism by which Eph receptor tyrosine kinases and their ephrin ligands signal events affecting cell-cell adhesion and morphogenetic movements. The Developmental Biology Unit, headed by Dr. Susan Mackem, focuses on signaling through the hedgehog pathway using limb development/digit formation as a model system. The Genetics of Vertebrate Development, headed by Dr. Mark Lewandoski, is studying the functions of growth factors during development in the outgrowth and patterning of the limb and the anterior/posterior axis during somitogenesis. The Cell Signaling in Vertebrate Development Section, headed by Dr. Terry Yamaguchi, is analyzing the functions of the Wnt family of genes in development and their dysregulation in cancer. The Phospholipid and Sphingolipid Signaling Section, under Dr. Jairaj Acharya, explores the impact of sphingolipid flux in various biological processes, utilizing drosophila and mouse models.


There are no Open Positions at this time, check back again later.


About

The interests of the Cancer and Developmental Biology Laboratory (CDBL) are centered on the analysis of embryonic development, particularly the mechanisms of growth control and the regulation of differentiation through growth factors, cytokines, and their receptors. The study of how embryos grow and develop from the fertilized egg is not only of intrinsic interest but also of relevance to understanding the origins and development of a wide variety of cancers. Many of the cellular processes involved in embryonic development (such as proliferation, adhesion, migration, and differentiation) are mediated by the actions of growth factors and their receptors. In many cancers, these same growth factors and receptors frequently are abnormally expressed or are even mutated to form oncogenes. Understanding the functions of these factors in development will deepen our knowledge of the biology of cancer. 

The Laboratory at present consists of six sections. The Differentiation and Neoplasia Section, directed by Dr. Alan Perantoni, is analyzing the functions of inductive cytokines in nephrogenesis and dysregulation of inductive signaling in nephroblastoma/Wilms tumor development. The Developmental Signal Transduction Section, directed by Dr. Ira Daar, focuses on the mechanism by which Eph receptor tyrosine kinases and their ephrin ligands signal events affecting cell-cell adhesion and morphogenetic movements. The Developmental Biology Unit, headed by Dr. Susan Mackem, focuses on signaling through the hedgehog pathway using limb development/digit formation as a model system. The Genetics of Vertebrate Development, headed by Dr. Mark Lewandoski, is studying the functions of growth factors during development in the outgrowth and patterning of the limb and the anterior/posterior axis during somitogenesis. The Cell Signaling in Vertebrate Development Section, headed by Dr. Terry Yamaguchi, is analyzing the functions of the Wnt family of genes in development and their dysregulation in cancer. The Phospholipid and Sphingolipid Signaling Section, under Dr. Jairaj Acharya, explores the impact of sphingolipid flux in various biological processes, utilizing drosophila and mouse models.

PI & Key Staff

Positions


There are no Open Positions at this time, check back again later.


Contact Info

Cancer and Developmental Biology Laboratory
Center for Cancer Research
National Cancer Institute
Building 539, Room 121
Frederick, MD 21702-1201
Ph: 301-846-6529
Administrative Lab Manager
301-846-1837
Secretary
301-228-4628