Focal cortical dysplasias (FCDs) represent a prominent cause of pharmacologically intractable epilepsy. In FCD, the decrease of parvalbumin immunoreactive (PV+) inhibitory interneurons has been repeatedly documented.
Here, we wanted to show whether another interneuronal population, the calretinin immunoreactive (CR+) neurons, exhibits any change in human FCD. We also investigated samples of morphologically normal temporal neocortex resected together with sclerotic hippocampus (nHSTN), where decrease of PV+ interneurons was previously documented as well.
Brain tissue from 24 patients surgically treated for pharmacoresistant epilepsy was examined. Calretinin immunoreactivity was qualitatively evaluated and the density of CR+ neuronal profiles was quantified.
As a control, post-mortem acquired neocortical samples of nine patients without any brain affecting disease were used. CR+ neurons were located predominantly in superficial cortical layers both in controls and pathological samples.
Similarly, the morphology of CR+ neurons was unaffected in pathological samples. The overall density of CR+ neurons was significantly decreased in FCD type I (to approximately 70% of control values) and even more in FCD type II (to approximately 50% of controls).
In nHSTN, no change compared to controls was found in CR+ neuronal density. Our results may contribute to the better understanding of the role of individual interneuronal populations in epileptogenesis.