{"id":17987,"date":"2022-12-09T14:27:20","date_gmt":"2022-12-09T19:27:20","guid":{"rendered":"https:\/\/www.bumc.bu.edu\/biochemcellbio\/?post_type=profile&p=17987"},"modified":"2025-12-23T10:31:48","modified_gmt":"2025-12-23T15:31:48","slug":"clementine-eva-philibert","status":"publish","type":"profile","link":"https:\/\/www.bumc.bu.edu\/biochemcellbio\/profiles\/clementine-eva-philibert\/","title":{"rendered":"Clementine Eva Philibert"},"content":{"rendered":"

I am currently a Postdoctoral Associate in the laboratory of Dr. Mikel Garcia-Marcos in the Department of Biochemistry at Boston University School of Medicine. During my Ph.D., I worked on the metabotropic glutamate receptor 2 (mGluR2). This G protein-coupled receptor (GPCR) keeps on attracting particular attention given its implication in schizophrenia, a multifactorial psychiatric disease. mGluR2 is the main target of a new generation of antipsychotics currently under clinical trial that are currently the most efficient and promising antipsychotics ever seen. However, mGluR2 signaling remain poorly characterized. During my Ph.D., I have taken advantage of a nanobody specifically targeting endogenous mGluR2. From mass spectrometry to animal behavioral test, I was able to fully decipher the first non-canonical signaling pathway of mGluR2: TrkB, a tyrosine receptor kinase that plays a key role in mediating the antipsychotics effect of the new generation of antipsychotics. My current research now in Dr. Mikel Garcia-Marcos\u2019 lab will focus, on one hand, on generating new rationally engineered protein that will help to better understand G-protein signaling pathway and, on the other hand, characterizing the importance of a G-protein regulator in the brain.<\/p>\n

Publications<\/h4>

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