Ralf Regenthal

Atomoxetine Modulates Right Inferior Frontal Activation During Inhibitory Control: A Pharmacological Functional Magnetic Resonance Imaging Study

BACKGROUND Atomoxetine, a selective noradrenaline reuptake inhibitor (SNRI) licensed for the treatment of attention-deficit/hyperactivity disorder (ADHD), has been shown to improve response inhibition in animals, healthy volunteers, and adult patients. However, the mechanisms by which atomoxetine improves inhibitory control have yet to be determined. METHODS The effects of atomoxetine (40 mg) were measured with a stop-signal functional magnetic resonance imaging (fMRI) paradigm in 19 healthy volunteers, in a within-subject, double-blind, placebo-controlled design. RESULTS Atomoxetine improved inhibitory control and increased activation in the right inferior frontal gyrus when volunteers attempted to inhibit their responses (irrespective of success). Plasma levels of drug correlated significantly with right inferior frontal gyrus activation only during successful inhibition. CONCLUSIONS These results show that atomoxetine exerts its beneficial effects on inhibitory control via modulation of right inferior frontal function, with implications for understanding and treating inhibitory dysfunction of ADHD and other disorders.

A positron emission tomography study of nigro-striatal dopaminergic mechanisms underlying attention: implications for ADHD and its treatment

Through the combined use of 18F-fallypride positron emission tomography and magnetic resonance imaging this study examined the neural mechanisms underlying the attentional deficits associated with attention deficit/hyperactivity disorder and their potential reversal with a single therapeutic dose of methylphenidate. Sixteen adult patients with attention deficit/hyperactivity disorder and 16 matched healthy control subjects were positron emission tomography and magnetic resonance imaging scanned and tested on a computerized sustained attention task after oral methylphenidate (0.5 mg/kg) and placebo administration in a within-subject, double-blind, cross-over design. Although patients with attention deficit/hyperactivity disorder as a group showed significant attentional deficits and reduced grey matter volume in fronto-striato-cerebellar and limbic networks, they had equivalent D2/D3 receptor availability and equivalent increases in endogenous dopamine after methylphenidate treatment to that observed in healthy control subjects. However, poor attentional performers drawn from both the attention deficit/hyperactivity disorder and the control groups had significantly reduced left caudate dopamine activity. Methylphenidate significantly increased dopamine levels in all nigro-striatal regions, thereby normalizing dopamine levels in the left caudate in low performers. Behaviourally, methylphenidate improved sustained attention in a baseline performance-dependent manner, irrespective of diagnosis. This finding was accompanied by an equally performance-dependent effect of the drug on dopamine release in the midbrain, whereby low performers showed reduced dopamine release in this region. Collectively, these findings support a dimensional model of attentional deficits and underlying nigro-striatal dopaminergic mechanisms of attention deficit/hyperactivity disorder that extends into the healthy population. Moreover, they confer midbrain dopamine autoreceptors a hitherto neglected role in the therapeutic effects of oral methylphenidate in attention deficit/hyperactivity disorder. The absence of significant case–control differences in D2/D3 receptor availability (despite the observed relationships between dopamine activity and attention) suggests that dopamine dysregulation per se is unlikely to be the primary cause underlying attention deficit/hyperactivity disorder pathology in adults. This conclusion is reinforced by evidence of neuroanatomical changes in the same set of patients with attention deficit/hyperactivity disorder.

Changes in purinergic signaling after cerebral injury – involvement of glutamatergic mechanisms?

Extracellular purines act as neuromodulators on transmitter release and may exert toxic effects at higher concentrations. In microdialysis studies, endogenous ATP facilitated the extracellular concentration of glutamate in the nucleus accumbens (NAc) of rats. Additionally, P2 receptors are involved in astrogliosis in vivo after a stab wound injury in the same region, suggesting that these receptors, preferentially the metabotropic P2Y1 receptor subtype, mediate also trophic responses. Two sets of experimental findings support the involvement of purinergic and glutamatergic mechanisms in the response of brain to mechanical damage. First, in the present studies, the initial time course of extracellular ATP and glutamate was analyzed after a mechanical injury. The concentration of ATP in microdialysates was elevated only in the first 15‐min sample whereas glutamate returned to a basal concentration not before a 90‐min period had elapsed. We suggest, that the acute injury‐evoked stimulation of P2 receptors contributes to glutamate‐mediated excitotoxicity. Second, the expression of P2Y1 receptors and their possible relation to glutamatergic structures, identified by neuronal vesicular glutamate transporters (VGLUTs), were elucidated in non‐treated and mechanically injured animals after 4 days. The number of P2Y1‐positive cells was significantly increased after injury. Furthermore, P2Y1 receptor‐labeled cells do not exhibit immunoreactivity for VGLUT1 and VGLUT2 without and after injury. However, after injury, a co‐expression of the P2Y1 receptor on VGLUT3‐immunopositive cells in the NAc was observed. No VGLUT1‐, 2‐ and 3‐immunoreactivity was found on P2Y1‐positive glial fibrillary acidic protein‐immunopositive astrocytes at both conditions.

Selective serotonin reuptake inhibition modulates response inhibition in Parkinson’s disease

Impulsivity is common in Parkinson’s disease. In a double-blind, placebo-controlled study with multi-modal imaging, Ye et al. reveal improved response inhibition in some patients receiving the SSRI citalopram, including those with advanced disease. Improvements correlated with preserved frontostriatal structural connectivity and drug-induced prefrontal activity, highlighting the need for patient stratification in trials.

Targeting impulsivity in Parkinson’s disease using atomoxetine

In a double-blind randomized placebo-controlled study, Kehagia et al. investigate the effects of a single dose of atomoxetine, a selective noradrenaline reuptake inhibitor, in 25 patients with Parkinson’s disease. Consistent with the presence of a longstanding noradrenergic deficit, atomoxetine improved stopping accuracy, and reduced reflection impulsivity during decision making.

Improving Response Inhibition in Parkinson's Disease with Atomoxetine

Background Dopaminergic drugs remain the mainstay of Parkinson’s disease therapy but often fail to improve cognitive problems such as impulsivity. This may be due to the loss of other neurotransmitters, including noradrenaline, which is linked to impulsivity and response inhibition. We therefore examined the effect of the selective noradrenaline reuptake inhibitor atomoxetine on response inhibition in a stop-signal paradigm. Methods This pharmacological functional magnetic resonance imaging study used a double-blinded randomized crossover design with low-frequency inhibition trials distributed among frequent Go trials. Twenty-one patients received 40 mg atomoxetine or placebo. Control subjects were tested on no-drug. The effects of disease and drug on behavioral performance, regional brain activity, and functional connectivity were analyzed using general linear models. Anatomical connectivity was examined using diffusion-weighted imaging. Results Patients with Parkinson’s disease had longer stop-signal reaction times, less stop-related activation in the right inferior frontal gyrus (RIFG), and weaker functional connectivity between the RIFG and striatum compared with control subjects. Atomoxetine enhanced stop-related RIFG activation in proportion to disease severity. Although there was no overall behavioral benefit from atomoxetine, analyses of individual differences revealed that enhanced response inhibition by atomoxetine was associated with increased RIFG activation and functional frontostriatal connectivity. Improved performance was more likely in patients with higher structural frontostriatal connectivity. Conclusions This study suggests that enhanced prefrontal cortical activation and frontostriatal connectivity by atomoxetine may improve response inhibition in Parkinson’s disease. These results point the way to new stratified clinical trials of atomoxetine to treat impulsivity in selected patients with Parkinson’s disease.

Serotonergic Modulation of Intrinsic Functional Connectivity

Serotonin functions as an essential neuromodulator that serves a multitude of roles, most prominently balancing mood. Serotonergic challenge has been observed to reduce intrinsic functional connectivity in brain regions implicated in mood regulation. However, the full scope of serotonergic action on functional connectivity in the human brain has not been explored. Here, we show evidence that a single dose of a serotonin reuptake inhibitor dramatically alters functional connectivity throughout the whole brain in healthy subjects (n = 22). Our network-centrality analysis reveals a widespread decrease in connectivity in most cortical and subcortical areas. In the cerebellum and thalamus, however, we find localized increases. These rapid and brain-encompassing connectivity changes linked to acute serotonin transporter blockade suggest a key role for the serotonin transporter in the modulation of the functional macroscale connectome.

The serotonin transporter availability in untreated early-onset and late-onset patients with obsessive-compulsive disorder.

The pathogenetic role of central serotonin transporters (SERT) in obsessive-compulsive disorder (OCD) has been investigated in vivo by positron emission tomography (PET) or single-photon emission computed tomography (SPECT) studies with inconsistent results. This might reflect methodological differences but possibly also the pathophysiological heterogeneity of the disorder, i.e. the age at onset of OCD. The aim of our study was to compare SERT availability in patients with OCD to healthy controls (HC) taking into account the onset type, other factors and covariates (e.g. SERT genotype, age, depression level, gender). We studied 19 drug-naive OCD patients (36±13 yr, eight females) with early onset (EO-OCD, n=6) or with late onset (LO-OCD, n=13), and 21 HC (38±8 yr, nine females) with PET and the SERT-selective radiotracer [11C]DASB. Statistical models indicated that a variety of covariates and their interaction influenced SERT availability measured by distribution volume ratios (DVR). These models revealed significant effects of onset type on DVR with lower values in LO-OCD (starting at age 18 yr) compared to EO-OCD and HC in limbic (e.g. the amygdala), paralimbic brain areas (the anterior cingulate cortex), the nucleus accumbens and striatal regions, as well as borderline significance in the thalamus and the hypothalamus. The putamen, nucleus accumbens and hypothalamus were found with significant interaction between two SERT gene polymorphisms (SERT-LPR and VNTR). These findings suggest that late but not early onset of OCD is associated with abnormally low SERT availability. In part, functional polymorphisms of the SERT gene might determine the differences.

Determination of nicotine and cotinine in human serum by means of LC/MS.

As part of a joint clinical research project to study the effects of nicotine on the brain, a HPLC electrospray ionisation mass spectrometry method with a solid-phase extraction sample preparation was developed for the quantitative determination of nicotine and cotinine in human serum in volunteers. The measured concentrations of nicotine and cotinine were used as control for smoking behaviour. A X-Bridge-column from Waters, and a SSQ 7000 single quadropole mass spectrometer with a TSP liquid chromatographic system were used. The method includes a simple and robust sample preparation and this assay has been shown to be of a sufficient sensitivity for this application. The limits of quantification were 5 and 2ng/ml for cotinine and nicotine, respectively. A simultaneous study was conducted to measure nicotine receptor availability and the vigilance in the same group of volunteers.

Improving response inhibition systems in frontotemporal dementia with citalopram.

Disinhibition is a cardinal feature of behavioural variant frontotemporal dementia, arising from both frontal atrophy and serotonin depletion. Hughes et al. show that neurophysiological signatures of inhibition are reduced in frontotemporal dementia, and that citalopram rescues prefrontal neurophysiological deficits relative to placebo. Boosting serotoninergic transmission may facilitate management of disinhibition.