Characterization of murine CEACAM1 reveals low expression on CD8 T cells and no tumor growth modulating activity by anti-CEACAM1 mAb CC1.

Carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1) has been reported to mediate both tumorigenic and anti-tumor effects . Blockade of the CEACAM1 signaling pathway has recently been implicated as a novel mechanism for cancer immunotherapy. CC1, a mouse anti-CEACAM1 monoclonal antibody (mAb), has been widely used as a pharmacological tool in preclinical studies to inform on CEACAM1 pathway biology although limited data are available on its CEACAM1 blocking characteristics or pharmacodynamic-pharmacokinetic profiles.

Levomilnacipran Pharmacokinetics in Healthy Volunteers Versus Patients with Major Depressive Disorder and Implications for Norepinephrine and Serotonin Reuptake Inhibition.

Purpose: Levomilnacipran, a selective serotonin (5-HT) and norepinephrine (NE) reuptake inhibitor, is approved for the treatment of major depressive disorder (MDD) in adults. The objectives of this investigation were to characterize the pharmacokinetic (PK) parameters of levomilnacipran in healthy subjects and in patients with MDD and to compare the plasma concentrations observed at clinically effective doses (40-120 mg daily) in MDD patients versus in vitro inhibitory concentration values for NE and 5-HT transporters.

Methods: Data from 2 trials were analyzed: a Phase I trial (healthy volunteers received a single dose of levomilnacipran extended-release capsule [ER; 25, 50, or 100 mg], escalating multiple doses of levomilnacipran ER [25-300 mg once daily], or placebo); and a Phase III trial (adults with MDD received a fixed dose of levomilnacipran ER [40, 80, or 120 mg once daily for 8 weeks]).

Effects of milnacipran on cognitive flexibility following chronic stress in rats.

Cognitive dysfunction is a component of affective disorders, including depression. Chronic stress is a risk factor for depression, and we have shown that exposing rats to chronic unpredictable stress (CUS) induces a deficit of cognitive flexibility, the ability to modify behavior based on feedback from a changing environment. Deficits of cognitive flexibility, measured by extra-dimensional set-shifting on the Attentional Set-shifting Test (AST), are consistent with dysregulation of prefrontal cortical function, also characteristic of depression.

Faster onset and dopamine transporter selectivity predict stimulant and reinforcing effects of cocaine analogs in squirrel monkeys.

Although the behavioral-stimulant and reinforcing effects of cocaine and related psychomotor stimulants have been attributed to their actions at the dopamine transporter (DAT), the reinforcing effectiveness of these compounds varies. The properties that confer these differences are important considerations when developing agonist pharmacotherapies for the treatment of stimulant abuse. The present studies focused on the time course of action and pharmacological specificity of six 3-phenyltropane analogs of cocaine (RTI-112, RTI-126, RTI-150, RTI-171, RTI-177, and RTI-336) by observing their behavioral-stimulant, neurochemical, and reinforcing effects in squirrel monkeys.

Ethanol-induced regulation of GABA-A subunit mRNAs in prefrontal fields of cynomolgus monkeys.

Background: Recent evidence indicates that functional impairment of the orbital and medial fields of the prefrontal cortex may underlie the deficits in executive control of behavior that characterize addictive disorders, including alcohol addiction. Moreover, previous studies have indicated that alcohol alters GABA neurotransmission and one substrate of these effects may be through the reconfiguration of the subunits constituting the GABA(A) receptor complex. Given that GABAergic transmission has an integral role in cortical processing, influencing local and interregional communication, understanding alcohol-induced alterations in GABA(A) receptors in prefrontal fields of the primate brain may provide insight into the functional impairment of these brain regions in the alcohol-addicted state and extend our understanding of the molecular consequences of long-term use in these critical brain regions.

Region specific regulation of NR1 in rhesus monkeys following chronic antipsychotic drug administration.

Background: Altered NMDA receptor subunit protein levels have been reported in various regions of the schizophrenic brain; however, chronic antipsychotic administration in schizophrenic subjects may confound interpretation.

Methods: The effects of chronic antipsychotic drug administration (haloperidol and clozapine) on protein levels of NR1, NR2A and NR2B proteins were evaluated in the nucleus accumbens (NAc), putamen (PUT), dorsolateral prefrontal cortex (DLPFC), superior temporal gyrus (STG), and entorhinal cortex (EC) of rhesus monkeys using Western blot analysis.

Results: Haloperidol administration significantly decreased NR1 expression in the DLPFC.

Molecular mapping of striatal subdivisions in juvenile Macaca Mulata.

The striatum of the primate brain can be subdivided into three distinct anatomical subregions: caudate (CAU), putamen (PUT), and ventral striatum (VS). Although these subregions share several anatomical connections, cell morphological, and histochemical features, they differ considerably in their vulnerability to different neurological and psychiatric diseases, and these brain regions have significantly different functions in health and disease. In order to better understand the molecular underpinnings of the different disease and functional vulnerabilities, transcriptional profiles were generated from the CAU, PUT, and VS of five juvenile rhesus macaques (Macaca mulatta) using human cDNA neuromicroarrays containing triplicate spots of 1227 cDNAs.