Simone Guadagna scite author profile

Antipsychotics are the most widely used medications for the treatment of schizophrenia spectrum disorders. While such drugs generally ameliorate positive symptoms, clinical responses are highly variable in terms of negative symptoms and cognitive impairments. However, predictors of individual responses have been elusive. Here, we report a pharmacogenetic interaction related to a core cognitive dysfunction in patients with schizophrenia. We show that genetic variations reducing dysbindin-1 expression can identify individuals whose executive functions respond better to antipsychotic drugs, both in humans and in mice. Multilevel ex vivo and in vivo analyses in postmortem human brains and genetically modified mice demonstrate that such interaction between antipsychotics and dysbindin-1 is mediated by an imbalance between the short and long isoforms of dopamine D2 receptors, leading to enhanced presynaptic D2 function within the prefrontal cortex. These findings reveal one of the pharmacodynamic mechanisms underlying individual cognitive response to treatment in patients with schizophrenia, suggesting a potential approach for improving the use of antipsychotic drugs.

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Tau phosphorylation in human brain: relationship to behavioral disturbance in dementia

Guadagna

Esiri

Williams

et al. 2012

Neurobiology of Aging

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Differentiation Increases the Resistance of Neuronal Cells to Amyloid Toxicity

et al. 2008

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A substantial lack of information is recognized on the features underlying the variable susceptibility to amyloid aggregate toxicity of cells with different phenotypes. Recently, we showed that different cell types are variously affected by early aggregates of a prokaryotic hydrogenase domain (HypF-N). In the present study we investigated whether differentiation affects cell susceptibility to amyloid injury using a human neurotypic SH-SY5Y cell differentiation model. We found that retinoic acid-differentiated cells were significantly more resistant against Abeta1-40, Abeta1-42 and HypF-N prefibrillar aggregate toxicity respect to undifferentiated cells treated similarly. Earlier and sharper increases in cytosolic Ca(2+) and ROS with marked lipid peroxidation and mitochondrial dysfunction were also detected in exposed undifferentiated cells resulting in apoptosis activation. The reduced vulnerability of differentiated cells matched a more efficient Ca(2+)-ATPase equipment and a higher total antioxidant capacity. Finally, increasing the content of membrane cholesterol resulted in a remarkable reduction of vulnerability and ability to bind the aggregates in either undifferentiated and differentiated cells.

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Memantine potentiates hippocampal theta oscillations at a therapeutic dose in anesthetized mice: A mechanistic link to its cognitive-enhancing properties

et al. 2012

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Frequency dependence of CA3 spike phase response arising from h-current properties

Borel

Guadagna

Jang

et al. 2013

Front. Cell. Neurosci.

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The phase of firing of hippocampal neurons during theta oscillations encodes spatial information. Moreover, the spike phase response to synaptic inputs in individual cells depends on the expression of the hyperpolarization-activated mixed cation current (Ih), which differs between CA3 and CA1 pyramidal neurons. Here, we compared the phase response of these two cell types, as well as their intrinsic membrane properties. We found that both CA3 and CA1 pyramidal neurons show a voltage sag in response to negative current steps but that this voltage sag is significantly smaller in CA3 cells. Moreover, CA3 pyramidal neurons have less prominent resonance properties compared to CA1 pyramidal neurons. This is consistent with differential expression of Ih by the two cell types. Despite their distinct intrinsic membrane properties, both CA3 and CA1 pyramidal neurons displayed bidirectional spike phase control by excitatory conductance inputs during theta oscillations. In particular, excitatory inputs delivered at the descending phase of a dynamic clamp-induced membrane potential oscillation delayed the subsequent spike by nearly 50 mrad. The effect was shown to be mediated by Ih and was counteracted by increasing inhibitory conductance driving the membrane potential oscillation. Using our experimental data to feed a computational model, we showed that differences in Ih between CA3 and CA1 pyramidal neurons could predict frequency-dependent differences in phase response properties between these cell types. We confirmed experimentally such frequency-dependent spike phase control in CA3 neurons. Therefore, a decrease in theta frequency, which is observed in intact animals during novelty, might switch the CA3 spike phase response from unidirectional to bidirectional and thereby promote encoding of the new context.

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Simone Guadagna

Variations in Dysbindin-1 are associated with cognitive response to antipsychotic drug treatment

Tau phosphorylation in human brain: relationship to behavioral disturbance in dementia

Differentiation Increases the Resistance of Neuronal Cells to Amyloid Toxicity

Memantine potentiates hippocampal theta oscillations at a therapeutic dose in anesthetized mice: A mechanistic link to its cognitive-enhancing properties

Frequency dependence of CA3 spike phase response arising from h-current properties

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