Dr. Carl P Blobel
PositionMD, PhD. Senior Scientist
Metalloprotease-disintegrins (ADAMs): key players in growth factor signaling, angiogenesis and arthritis Studies in my lab are focused on a family of membrane-anchored metalloproteases named ADAMs (a disintegrin and metalloprotease) with an emphasis on their role in tissue degeneration and regeneration, rheumatoid arthritis and angiogenesis. ADAMs are membrane-anchored glycoproteins that can function as molecular signaling switches by cleaving and releasing other membrane proteins from cells. This process, which is referred to as “protein ectodomain shedding”, can activate or inactivate the substrate protein, or substantially change its functional properties. Examples of membrane proteins whose function is regulated by ADAMs are the pro-inflammatory cytokine TNF alpha, the main target of drugs for treatment of rheumatoid arthritis, and several ligands of the epidermal growth factor receptor (EGFR), a receptor with important roles in development, cancer and wound healing. We are taking three complementary approaches to study the function of ADAMs and their role in ectodomain shedding. The first is to create and analyze mice lacking specific ADAMs (“knockout mice”), which are essential for evaluating the function of these proteins during development and in mouse models for human diseases. The second is to use cells from these knockout mice to uncover the molecular mechanism underlying the function of different ADAMs, for example by identifying defects in ectodomain shedding in cells that lack one or more ADAMs. The third is to biochemically characterize recombinant ADAMs and determine their substrate specificity and inhibitor profile. Results obtained from studies in vitro can be extended and verified in vivo in cell culture and whole animals, and vice versa. Currently the lab is focused on understanding how ADAMs regulate the activity of ligands of the epidermal growth factor receptor (EGFR), on elucidating the mechanism underlying the recently discovered roles of ADAMs in angiogenesis, and on their involvement in rheumatoid arthritis and healing of bone fractures and skin wounds. We anticipate that our studies will provide interesting new insights into the role of these proteins in cell-cell interactions and signaling and hope that they will help devise new approaches to fighting autoimmune disease and tissue degeneration and to stimulating tissue growth and regeneration.
Lab MembershipsCarl P. Blobel Laboratory (Principal Investigator/Director)
HSS Research Institute