Abstract
Alterations in mitochondrial function have been implicated in the etiology of schizophrenia. Most studies have investigated alterations in mitochondrial function in patients in which the disorder is already established; however, whether mitochondrial dysfunction predates the onset of psychosis remains unknown. We measured peripheral mitochondrial complex (I–V) function and lactate/pyruvate levels in 27 antipsychotic-naïve individuals at clinical high risk for psychosis (CHR) and 16 healthy controls. We also explored the association between mitochondrial function and brain microglial activation and glutathione levels using a translocator protein 18 kDa [18F]FEPPA PET scan and 1H-MRS scan, respectively. There were no significant differences in mitochondrial complex function and lactate/pyruvate levels between CHR and healthy controls. In the CHR group, mitochondrial complex III function (r = −0.51, p = 0.008) and lactate levels (r = 0.61, p = 0.004) were associated with prodromal negative symptoms. As previously reported, there were no significant differences in microglial activation and glutathione levels between groups, however, mitochondrial complex IV function was inversely related to microglial activation in the hippocampus in CHR (r = −0.42, p = 0.04), but not in healthy controls. In conclusion, alterations in mitochondrial function are not yet evident in CHR, but may relate to the severity of prodromal symptoms, particularly negative symptoms.
Highlights
Altered brain energy metabolism and mitochondrial dysfunction have been implicated in the etiology of schizophrenia[1]
There were no significant differences in mitochondrial complex (I-V) function and lactate and pyruvate levels between clinical high risk for psychosis (CHR) and healthy controls
There were no significant differences in peripheral mitochondrial complex function and lactate and pyruvate levels between CHR and healthy controls
Summary
Altered brain energy metabolism and mitochondrial dysfunction have been implicated in the etiology of schizophrenia[1]. Compromised mitochondrial function can result in impaired calcium buffering, apoptosis and over-production of reactive oxygen species (ROS)[3] In addition to their role in energy production, mitochondria are involved in regulating neuronal development and synaptic plasticity[3]. Alterations in mitochondrial complex activity have been consistently reported in blood cells of schizophrenia patients. Impaired mitochondrial function often produces an excess of ROS and depletion of antioxidants resulting in oxidative stress[32,33]; a recent proton magnetic resonance spectroscopy (1H-MRS) study reported no alterations in glutathione levels, the major brain antioxidant, between CHR and healthy controls[34]. We explored the association between mitochondrial function and brain microglial activation and glutathione levels
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