Behavioural and Molecular Outcomes of Early Life Immune Challenge in Mice / Early Life Immune Challenge In Mice

Sidor, Michelle M.

12 1900

<p> Although historically treated as separate systems, there is considerable interaction between the immune system and brain. It has become increasingly clear that immunebrain communication is important to both health and disease. An immunogenic challenge given during the first postnatal week in rodents impacts the developing central nervous system (CNS) leading to long-term behavioural and molecular alterations reflective of enhanced stress-reactivity. Anxiety and depression are stress-related pathologies with a proposed neurodevelopmental origin suggesting that perturbation to neonatal immunebrain signalling may contribute to psychopathology. The current body of work examined the long-term impact of an early immune challenge on behavioural and molecular phenotypes associated with anxiety and depression. Mice were administered lipopolysaccharide (LPS) on postnatal days three and five. The emergence of anxietyrelated behaviour was characterized along the developmental trajectory of LPS-mice concurrent with changes to serotonergic neurocircuitry. Adult depressive-related behaviour was assessed in the forced swim test (FST) along with hippocampal neurogenesis as revealed by immunoreactivity for bromodeoxyuridine (BrdU) and doublecortin (DCX). The results demonstrated a sex-specific alteration in both the temporal emergence and phenotypic variant of anxiety-related behaviours displayed by LPS-mice. This was accompanied by changes to CNS serotonergic-related gene expression that coincided with a critical developmental time window essential to the establishment of emotionality. Adult LPS-mice exhibited hyperactivity during the FST that was accompanied by increased doublecortin immunoreactivity in the dorsal and ventral hippocampus, reflecting enhanced immature neuronal differentiation. The current results demonstrate that an early immune challenge impacts the developing CNS leading to enhanced emotional-reactivity. Altered serotonergic neurocircuitry and adult hippocampal neurogenesis may underlie behavioural abnormalities. The current body of work demonstrates a preeminent role for early-life immune disturbance in psychopathology and advances understanding of how immune-brain signalling impacts the developing CNS and confers risk for later disease. </p> / Thesis / Doctor of Philosophy (PhD)

Cbx4 regulates the proliferation of thymic epithelial cells and thymus function

Liu, B., Liu, Y. F., Du, Y. R., Mardaryev, A. N., Yang, W., Chen, H., Xu, Z. M., Xu, C. Q., Zhang, X. R., Botchkarev, V. A., Zhang, Y., Xu, G. L.

January 2013

Thymic epithelial cells (TECs) are the main component of the thymic stroma, which supports T-cell proliferation and repertoire selection. Here, we demonstrate that Cbx4, a Polycomb protein that is highly expressed in the thymic epithelium, has an essential and non-redundant role in thymic organogenesis. Targeted disruption of Cbx4 causes severe hypoplasia of the fetal thymus as a result of reduced thymocyte proliferation. Cell-specific deletion of Cbx4 shows that the compromised thymopoiesis is rooted in a defective epithelial compartment. Cbx4-deficient TECs exhibit impaired proliferative capacity, and the limited thymic epithelial architecture quickly deteriorates in postnatal mutant mice, leading to an almost complete blockade of T-cell development shortly after birth and markedly reduced peripheral T-cell populations in adult mice. Furthermore, we show that Cbx4 physically interacts and functionally correlates with p63, which is a transcriptional regulator that is proposed to be important for the maintenance of the stemness of epithelial progenitors. Together, these data establish Cbx4 as a crucial regulator for the generation and maintenance of the thymic epithelium and, hence, for thymocyte development.

Animals

Bromodeoxyuridine

*Cell Proliferation

Epithelial Cells/metabolism/*physiology

Flow Cytometry

Gene Targeting

Histological Techniques

Immunoprecipitation

Mice

Microscopy, Fluorescence

Organogenesis/*physiology

Phosphoproteins/metabolism

Real-Time Polymerase Chain Reaction

T-Lymphocytes/cytology

Thymus Gland/cytology/*embryology

Trans-Activators/metabolism

Ubiquitin-Protein Ligases/*metabolism

REF 2014