Cytomegalovirus infection lengthens the cell cycle of granule cell precursors during postnatal cerebellar development
Cathy Yea Won Sung, Mao Li, Stipan Jonjic, Veronica Sanchez, William J. Britt
Cathy Yea Won Sung, Mao Li, Stipan Jonjic, Veronica Sanchez, William J. Britt
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Research Article Inflammation Neuroscience

Cytomegalovirus infection lengthens the cell cycle of granule cell precursors during postnatal cerebellar development

Abstract

Human cytomegalovirus (HCMV) infection in infants infected in utero can lead to a variety of neurodevelopmental disorders. However, mechanisms underlying altered neurodevelopment in infected infants remain poorly understood. We have previously described a murine model of congenital HCMV infection in which murine CMV (MCMV) spreads hematogenously and establishes a focal infection in all regions of the brain of newborn mice, including the cerebellum. Infection resulted in disruption of cerebellar cortical development characterized by reduced cerebellar size and foliation. This disruption was associated with altered cell cycle progression of the granule cell precursors (GCPs), which are the progenitors that give rise to granule cells (GCs), the most abundant neurons in the cerebellum. In the current study, we have demonstrated that MCMV infection leads to prolonged GCP cell cycle, premature exit from the cell cycle, and reduced numbers of GCs resulting in cerebellar hypoplasia. Treatment with TNF-α neutralizing antibody partially normalized the cell cycle alterations of GCPs and altered cerebellar morphogenesis induced by MCMV infection. Collectively, our results argue that virus-induced inflammation altered the cell cycle of GCPs resulting in a reduced numbers of GCs and cerebellar cortical hypoplasia, thus providing a potential mechanism for altered neurodevelopment in fetuses infected with HCMV.

Authors

Cathy Yea Won Sung, Mao Li, Stipan Jonjic, Veronica Sanchez, William J. Britt

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Figure 8

MCMV infection in newborn mice alters phosphorylation of Rb and levels of cell cycle proteins in GCPs.

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MCMV infection in newborn mice alters phosphorylation of Rb and levels o...
(AD) The expression of cell cycle proteins was quantified in GCPs isolated from P8 control and MCMV-infected cerebella by immunoblotting. β-Actin was used as internal control. Four to 5 samples (4 cerebella pooled for each sample)/experimental group were used for immunoblot analysis. (A and B) Expression of total Rb, phosphorylated Rb (pRb), and E2F-1 were quantified. Levels of total Rb, pRb S795, and E2F-1 were unaltered; however, pRb S780 and pRb S807/811 were significantly decreased in GCPs from MCMV-infected mice compared with control mice. Note immunoblots probed for pRb S807/811 were overexposed to allow detection of this form of Rb in GCPs from infected mice. (C and D) GCPs from MCMV-infected cerebella showed differential regulation of Cdk4 and Cdk6 while Cyclin D1 or p-Cyclin D1 were unaltered. Cyclin E1 and Cdk2 levels were reduced in GCPs from MCMV-infected mice cerebella. (E) Transcript levels of Ccnd1 (gene for Cyclin D1) and Ccne1 (gene for Cyclin E1) were quantified by RT-PCR using RNA extracted from cerebellar EGL isolated by laser microdissection. Ccnd1 and Ccne1 transcript levels correlated with the protein levels from isolated GCPs. n = 3–7 mice/experimental group were used for RT-PCR analysis. Data are shown as mean ± SD. P values were calculated using 2-tailed t test. *P < 0.05; **P < 0.01; ***P < 0.001.