Theo Palmer

Administrative Appointments

• Scientific Advisory Board, Children's Neurobiological Solutions (2005 - present)
• Scientific Advisory Board, Michael J. Fox Foundation (2002 - present)
• Scientific Advisor, Kinetics Foundation (2001 - present)

Honors and Awards

• Judith Graham Pool Award, National Hemophilia Foundation (1991)
• Mitsubishi Pharma Stem Cell Research Award, Mitsubishi Pharma Inc. (2002)
• Margot Anderson Wings of Hope Award, Margot Anderson Foundation (2002)
• Michael J Fox Fellowship in Stem Cell Research at Stanford, Michael J. Fox Foundation (2002)
• Grass Lectureship, The Grass Foundation (2003)

Professional Education

Postdoctoral Advisees

Harish Babu , Pamela Carpentier , Zhiguo Chen

Graduate & Fellowship Program Affiliations

• Cancer Biology
• Developmental Biology
• Neurobiology
• Neurology and Neurol Sciences
• Neurosciences

Community & International Work

• Consortium in Parkinson's Disease Research 
• Route 28 Summits in Neurobiology 
• Working Group in Parkinson's Disease at Stanford 

Research Interests

In human brain development, neurogenesis ceases at birth and the vast majority of areas in the adult mammalian brain no longer produce new neurons, even in the face of debilitating injury or disease. However, there are distinct exceptions to the rule. In rodents and humans, the hippocampus is one of the few areas where neurogenesis continues throughout life. Among other roles, the hippocampus is most well known as the area of the brain that mediates short-term learning and memory. Hippocampal function is affected in many diseases with grave human consequences. The two most common presentations of this dysfunction are memory deficits that accompany Alzheimer’s disease and major depressive disorders. The fact that the addition/replacement of neurons uniquely occurs in the hippocampus suggests that neurogenesis itself plays a useful role within a pre-existing neural network. However, the mechanisms that regulate this process are not understood.

Our research examines regions of adult brain where neurogenesis occurs to understand how the brain regulates and utilizes this ability to add or replace neurons. In our anatomical studies in the adult rodent hippocampus, it has become clear that neurons are produced by neural stem cells that reside in a specialized environmental niche at the interface between neural tissues of the brain and a vascular bed of fine capillaries. It is likely that the areas permissive for neurogenesis in the adult are defined by a specific arrangement of cells and signals from both the CNS and the periphery. To define how these diverse cellular signals collaborate to control neurogenesis in the adult, we have been reconstructing neurogenesis in the brain and Petri dish using primary cultures of neural stem cells and precursor cells derived from humans, rats and mice. This work has allowed us to identify specific growth factors, such as vascular endothelial growth factor, insulin-like growth factor-1, sonic hedgehog and wingless family members...

Publications

• Immune influence on adult neural stem cell regulation and function. Carpentier PA, Palmer TD. Neuron. 2009; 64 (1): 79-92
• FoxO3 regulates neural stem cell homeostasis. Renault VM, Rafalski VA, Morgan AA, Salih DA, Brett JO, Webb AE, Villeda SA, Thekkat PU, Guillerey C, Denko NC, Palmer TD, Butte AJ, Brunet A. Cell Stem Cell. 2009; 5 (5): 527-39
• A central role for the small GTPase Rac1 in hippocampal plasticity and spatial learning and memory. Haditsch U, Leone DP, Farinelli M, Chrostek-Grashoff A, Brakebusch C, Mansuy IM, McConnell SK, Palmer TD. Mol Cell Neurosci. 2009; 41 (4): 409-19
• Endogenous Wnt signaling maintains neural progenitor cell potency. Wexler EM, Paucer A, Kornblum HI, Plamer TD, Geschwind DH. Stem Cells. 2009; 27 (5): 1130-41
• Neurodegeneration and cell replacement. Ormerod BK, Palmer TD, Caldwell MA. Philos Trans R Soc Lond B Biol Sci. 2008; 363 (1489): 153-70