Differential involvement of rat medial prefrontal cortex dopamine receptors in modulation of hypothalamic- pituitary-adrenal axis responses to different stressors

Recent investigations have implicated the medial prefrontal cortex (mPFC) in modulation of subcortical pathways that contribute to the generation of behavioural, autonomic and endocrine responses to stress. However, little is known of the mechanisms involved. One of the key neurotransmitters involved in mPFC function is dopamine, and we therefore aimed, in this investigation, to examine the role of mPFC dopamine in response to stress in Wistar rats. In this regard, we infused dopamine antagonists SCH23390 or sulpiride into the mPFC via retrodialysis. We then examined changes in numbers of cells expressing the c-fos immediate-early gene protein product, Fos, in subcortical neuronal populations associated with regulation of hypothalamic-pituitary-adrenal (HPA) axis stress responses in response to either of two stressors; systemic injection of interleukin-1β, or air puff. The D1 antagonist, SCH23390, and the D2 antagonist, sulpiride, both attenuated expression of Fos in the medial parvocellular hypothalamic paraventricular nucleus (mpPVN) corticotropin-releasing factor cells at the apex of the HPA axis, as well as in most extra-hypothalamic brain regions examined in response to interleukin-1β. By contrast, SCH23390 failed to affect Fos expression in response to air puff in any brain region examined, while sulpiride resulted in an attenuation of the air puff-induced response in only the mpPVN and the bed nucleus of the stria terminalis. These results indicate that the mPFC differentially processes the response to different stressors and that the two types of dopamine receptor may have different roles.

Supersensitive platelet glutamate receptors as a possible peripheral marker in schizophrenia.

Hypoglutamatergic function is implicated in the pathogenesis of schizophrenia. The aim of this study was to examine the platelet intracellular calcium response to glutamate using spectroflourometry in 15 schizophrenic patients and 15 matched control individuals as an index of platelet glutamate receptor sensitivity. Patients with schizophrenia had significantly lower baseline intracellular calcium levels than matched control individuals (P = 0.03). The percentage response of the schizophrenic individuals to glutamate stimulation was significantly greater than control individuals (P < 0.001). These data suggest that platelet glutamate receptors may be supersensitive in schizophrenia. Furthermore, the platelet may be a possible peripheral marker of glutamate function in schizophrenia.

Metabotropic glutamate receptors as targets for novel antipsychotic treatments

In recent years metabotropic glutamate receptors have emerged as key targets for the design of new antipsychotic medications for schizophrenia, in particular mGluR5 and mGluR2/3. These receptors exhibit diverse interactions with other neurotransmitter receptors and critical elements of intracellular signalling cascades known to be important to the pharmacotherapy of schizophrenia. In addition, mGluR5 and mGluR2/3 are intimately involved in behavioural domains related to the symptoms of this disorder. Both animal and clinical studies using novel drugs targeting these receptors have provided encouraging results. The number of patents registered for drugs targeting metabotropic glutamate receptors has grown dramatically, and positive allosteric modulators for both receptors show particular promise.

Role of muscarinic receptors in the activity of N-desmethylclozapine: reversal of hyperactivity in the phospholipase C knockout mouse

Activity of the cholinergic muscarinic system is associated with modulation of locomotor activity, although the precise mechanism remains unclear. The phospholipase C-[beta]1 knockout mouse displays both M1 muscarinic receptor dysfunction and a hyperactive locomotor phenotype. This mouse serves as an ideal model for the analysis of muscarinic modulation of locomotor activity. The clozapine metabolite N-desmethylclozapine (NDMC) has shown some promise as an alternative or adjunct treatment for psychotic disorders. NDMC shows strong muscarinic acetylcholine receptor affinities, which may contribute to the clinical efficacy of clozapine and account for the correlation between NDMC/clozapine ratio and treatment response. Administration of NMDC reversed a striking hyperactive phenotype in the phospholipase C-[beta]1 knockout mouse, whereas no significant effects were observed in wild-type animals. This highlights the potential role of muscarinic activity in the behavioural response to NDMC. The M1 muscarinic antagonist pirenzepine, however, also reduced the hyperactive phenotype of these mice, emphasizing the importance of muscarinic function in the control of locomotor behaviour, but also calling into question the specific mechanism of action of NMDC at muscarinic receptors.

A comparison of M1 and M4 muscarinic receptors in the thalamus from control subjects and subjects with schizophrenia

Having shown a decrease in muscarinic M1 receptors in Brodmann’s area (BA) 9 from subjects with schizophrenia we have extended our studies to determine if this receptor is decreased in the thalamus from the same cohort of subjects. Levels of Full-size image (<1 K)pirenzepine binding to and mRNA encoding for M1 and M4 receptors were measured throughout the thalamus. Levels of M1 and M4 receptor proteins were measured in the mediodorsal nucleus. Two-way ANOVA revealed a variance in Full-size image (<1 K)pirenzepine binding (F=4.69, d.f. = 1.190, P=0.03), but there was no significant change in radioligand binding in any thalamic region in schizophrenia. Neither levels of mRNA encoding the thalamic M1 or M4 receptor nor levels of M1 or M4 receptor protein in the mediodorsal nucleus differed between the schizophrenic and control subjects. We therefore conclude that the M1 and M4 receptor are not altered in the thalamus from subjects with schizophrenia. These data add weight to the hypothesis that changes in M1 receptors in selective regions of the CNS are associated with the pathology of schizophrenia.

Expression and regulation of Homer in human skeletal muscle during neuromuscular junction adaptation to disuse and exercise

Protein calcium sensors of the Homer family have been proposed to modulate the activity of various ion channels and nuclear factor of activated T cells (NFAT), the transcription factor modulating skeletal muscle differentiation. We monitored Homer expression and subcellular localization in human skeletal muscle biopsies following 60 d of bedrest [Second Berlin Bedrest Study (BBR2-2)]. Soleus (SOL) and vastus lateralis (VL) biopsies were taken at start (pre) and at end (end) of bedrest from healthy male volunteers of a control group without exercise (CTR; n=9), a resistive-only exercise group (RE; n=7), and a combined resistive/vibration exercise group (RVE; n=7). Confocal analysis showed Homer immunoreactivity at the postsynaptic microdomain of the neuromuscular junction (NMJ) at bedrest start. After bedrest, Homer immunoreactivity decreased (CTR), remained unchanged (RE), or increased (RVE) at the NMJ. Homer2 mRNA and protein were differently regulated in a muscle-specific way. Activated NFATc1 translocates from cytoplasm to nucleus; increased amounts of NFATc1-immunopositive slow-type myonuclei were found in RVE myofibers of both muscles. Pulldown assays identified NFATc1 and Homer as molecular partners in skeletal muscle. A direct motor nerve control of Homer2 was confirmed in rat NMJs by in vivo denervation. Homer2 is localized at the NMJ and is part of the calcineurin-NFATc1 signaling pathway. RVE has additional benefit over RE as countermeasure preventing disuse-induced neuromuscular maladaptation during bedrest.

Norbornene-based anion receptors as D-alanine binders

Vancomycin is currently used as last-line therapy against many Gram-positive bacterial pathogens. Herein, we report a series of peptidomimetic norbornene-based anion receptors that were designed as simple vancomycin mimics New hosts were evaluated for their affinity to both acetate and acetyl D-Ala by 1H NMR titration. Modest binding to both anions was observed in DMSO-d6 (Log Ka 1-2 for TBA Acetyl D-Alanine) in the anticipated 1:1 mode of binding.