Antibodies against
Toxoplasma gondii infection were investigated in Parkinson’s and Alzheimer’s patients. No significant association was reported between toxoplasmosis and Parkinson’s disease
[73][74]. Seroprevalence for
T. gondii was significantly higher in Alzheimer’s patients as compared to their matched controls
[75][76][77]. Importantly, Alzheimer’s patients did not witness reactivation of latent toxoplasmosis, with only one case over 105 patients exhibiting positive IgM
[78]. Yet, in a meta-analysis on observational studies between
T. gondii infection and Alzheimer’s disease, only a marginally significant association was noted
[73]. At the molecular level, 118 genes (around 27.3%) over 432 susceptibility genes in Alzheimer’s disease are involved in the
T. gondii host/pathogen interactome
[79]. In preclinical models, experiments on BALB/c mice showed that infection with
T. gondii leads to Alzheimer’s-like symptoms including conflicts in learning and weak memory
[80]. In C57BL/6 mice, an accumulation of beta amyloid (Aβ) immunoreactivity and hyperphosphorylated tau, one of the markers of Alzheimer’s disease, was recorded in the brains of mice
[81]. Another study reported that
Toxoplasma infection ameliorates β-amyloidosis in a murine model of Alzheimer’s disease. This was mostly due to the activation and recruitment of monocytes, hence enhancing the degradation of soluble Aβ
[82]. The effect of the immunosuppression induced by
T. gondii infection on the pathophysiology of Alzheimer’s disease was also addressed in a murine model of Alzheimer’s disease (Tg2576). While IFN-γ levels remained unchanged, the levels of anti-inflammatory cytokines were significantly higher in
T. gondii-infected mice than in uninfected mice. Furthermore, β-amyloid plaque deposition in the cortex and hippocampus was remarkably lower and better cognitive capacities were observed in
T. gondii-infected mice, demonstrating a positive impact of
T. gondii-induced immunosuppression on Alzheimer’s progression in a murine model
[83]. Given that the progression of Alzheimer’s disease deteriorates upon the accumulation of Aβ plaques, which are eliminated through microglial phagocytosis, the association between microglial proliferation and Aβ plaque burden using brain tissues isolated from an Alzheimer’s disease murine model (5XFAD) following infection with
T. gondii was studied. In the infected group, a significant decrease in the amyloid plaque burden concurrent with an extensive proliferation of homeostatic microglial proliferation and an increased number of plaque-associated microglia were observed. Hence, it was concluded that chronic
T. gondii infection can induce microglial proliferation in the brains of mice with progressed Alzheimer’s disease, a promising approach for the treatment of this neuropathy
[84]. In conclusion, the relationship of
T. gondii and the development of Alzheimer’s disease and cognitive impairment require further studies on human subjects and animal models
[85] to elucidate the possible role of toxoplasmosis in the etiology of Alzheimer’s disease.