Fetal microchimerism in the maternal mouse brain: A novel population of fetal progenitor or stem cells able to cross the blood-brain barrier?

doi:10.1634/stemcells.2004-0169

Forum for Young Turks

Fetal microchimerism in the maternal mouse brain: A novel population of fetal progenitor or stem cells able to cross the blood-brain barrier?

Xiao-Wei Tan ¹, Hong Liao ², Li Sun ³, Masaru Okabe ⁴, Zhi-Cheng Xiao ³, Gavin S. Dawe ¹^*

¹ Department of Pharmacology, National University of Singapore, Singapore
² New Drug Screen Lab, China Pharmaceutical University, Nanjing, China
³ Department of Clinical Research, Singapore General Hospital, Singapore
⁴ Genome Information Research Centre, Osaka University, Osaka, Japan

^* To whom correspondence should be addressed. E-mail: gavindawe{at}nus.edu.sg.

Abstract

We investigated whether fetal cells can enter the maternalbrain during pregnancy. Female wild-type C57BL/6 mice were crossedwith transgenic Green Mice ubiquitously expressing enhancedgreen fluorescent protein (EGFP). Green Mouse fetal cells werefound in the maternal brain. Quantitative real-time PCR of genomicDNA for the EGFP gene showed that more fetal cells were presentin the maternal brain 4 weeks post-partum than on the day ofparturition. Following an excitotoxic lesion to the brain, morefetal cells were detected in the injured region. The presenceof fetal cells in the maternal brain was also confirmed by quantitativereal-time PCR for the sex-determining region of the Y chromosome.Four weeks post-partum, EGFP-positive Green Mouse fetal cellsin the maternal brain were found to adopt locations, morphologies,and expression of immunocytochemical makers indicative of perivascularmacrophage-, neurone-, astrocyte-, and oligodendrocyte-likecell types. Expression of morphological and immunocytochemicalcharacteristics of neuron- and astrocyte-like cell types wasconfirmed on identification of fetal cells in maternal brainby Y chromosome fluorescence in situ hybridization (FISH). Whilefurther studies are required to determine whether such engraftmentof the maternal brain has any physiological or pathophysiologicalfunctional significance, fetomaternal microchimerism providesa novel model for the experimental investigation of the propertiesof fetal progenitor or stem cells in the brain without priorin vitro manipulation. Characterization of the properties ofthese cells that allow them to cross both the placental andblood-brain barriers and to target injured brain may improveselection procedures for isolation of progenitor or stem cellsfor brain repair by intravenous infusion.

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