Neuron-specific ablation of PDGF-B is compatible with normal central nervous system development and astroglial response to injury
Authors
- M. Enge
- U. Wilhelmsson
- A. Abramsson
- J. Stakeberg
- R. Kühn
- C. Betsholtz
- M. Pekny
Journal
- Neurochemical Research
Citation
- Neurochem Res 28 (2): 271-279
Abstract
Members of the PDGF family have multiple roles during embryogenesis and in a variety of pathological situations in the adult. One of the major sites of PDGF-B expression in adult mammals are postmitotic CNS neurons. Combined with reported neurotrophic and neuroprotective effects of exogenously administered PDGFs, this has led to the speculation that PDGF-B may have a role in CNS development, in maintenance, or in response to CNS injury. To test these hypotheses, we developed mice in which PDGF-B was ablated genetically in postmitotic neurons at sites where PDGF-B is normally expressed. We found that these mice develop to adulthood without apparent defects. We demonstrate PDGF-B expression in the postnatal mouse hippocampus and forebrain cortex. We show that neuron-specific knockout of PDGF-B does not influence the astroglial and angiogenic responses to injury in the hippocampus or forebrain cortex. We conclude that the role of neuron-derived PDGF-B remains obscure. A role for neuron-derived PDGF-B, if existing, might be redundant with other CNS growth factors. Alternatively, other and more specific analyses of CNS functions in the normal and injured states will be required to demonstrate such a role.