The long-term host effects caused by the protozoan parasite Toxoplasma gondii are poorly understood. High-throughput RNA sequencing analysis previously determined that the host response in the brain was greater and more complex at 28 days than at 10 days postinfection. Here, we analyzed the host transcriptional profile of age- and sex-matched mice during very early (21 days), early (28 days), mid (3 months), and late (6 months) chronic infection. We found that a majority of the host genes which increase in abundance at day 21 postinfection are still increased at 6 months postinfection for both male and female mice. While most of the differentially expressed genes were similar between sexes, females had far fewer genes that were significantly less abundant, which may have led to the slightly increased cyst burden in males. Transcripts for C-X-C motif chemokine ligand 13 and a C-C motif chemokine receptor 2 (CCR2) were significantly higher in females than in males during infection. As T. gondii chronic infection and profilin (PRF) confer resistance to Listeria monocytogenes infection in a CCR2-dependent manner, the differences in CCR2 expression led us to retest the protection of PRF in both sexes. Male mice were nearly as effective as female mice at reducing the bacterial burden either with a chronic infection or when treated with PRF. These data show that most of the host genes differentially expressed in response to T. gondii infection are similar between males and females. While differences in transcript abundance exist between the sexes, the infection phenotypes tested here did not show significant differences.