The Non-Anhydrous, Minimally Basic Synthesis of the Dopamine D Agonist [18F]MCL-524.

The dopamine D agonist MCL-524 is selective for the D receptor in the high-affinity state (D), and, therefore, the PET analogue, [F]MCL-524, may facilitate the elucidation of the role of D in disorders such as schizophrenia. However, the previously reported synthesis of [F]MCL-524 proved difficult to replicate and was lacking experimental details. We therefore developed a new synthesis of [F]MCL-524 using a "non-anhydrous, minimally basic" (NAMB) approach.

The High Affinity Dopamine D Receptor Agonist MCL-536: A New Tool for Studying Dopaminergic Contribution to Neurological Disorders.

The dopamine D receptor exists in two different states, D and D; the former is the functional form of the D receptor and associates with intracellular G-proteins. The D agonist [H]MCL-536 has high affinity for the D receptor ( 0.8 nM) and potently displaces the binding of (-(-)---propylnorapomorphine (NPA; 0.

Robust differentiation of human pluripotent stem cells into endothelial cells via temporal modulation of ETV2 with modified mRNA.

Human induced pluripotent stem cell (h-iPSC)-derived endothelial cells (h-iECs) have become a valuable tool in regenerative medicine. However, current differentiation protocols remain inefficient and lack reliability. Here, we describe a method for rapid, consistent, and highly efficient generation of h-iECs.

A non-anhydrous, minimally basic protocol for the simplification of nucleophilic F-fluorination chemistry.

Fluorine-18 radiolabeling typically includes several conserved steps including elution of the [F]fluoride from an anion exchange cartridge with a basic solution of KCO or KHCO and Kryptofix 2.2.2.

Bioengineering hemophilia A-specific microvascular grafts for delivery of full-length factor VIII into the bloodstream.

Hemophilia A (HA) is a bleeding disorder caused by mutations in the F8 gene encoding coagulation factor VIII (FVIII). Current treatments are based on regular infusions of FVIII concentrates throughout a patient's life. Alternatively, viral gene therapies that directly deliver F8 in vivo have shown preliminary successes.

Identification of fluorinated (R)-(-)-aporphine derivatives as potent and selective ligands at serotonin 5-HT receptor.

A series of novel aporphine derivatives were synthesized for initial screening at the 5-HT receptor subtypes. Among them, Compounds 11a and 11b were identified as potent 5-HT hit ligands with high selectivity over other 5-HT receptor subtypes. Molecular docking study revealed that compounds 11a and 11b formed two key interactions with the binding site of 5-HT receptor, including a salt-bridge to D3.

A new noninvasive mechanical bending test accurately predicts ulna bending strength in cadaveric human arms.

Background: High error rates in the prediction of fragility fractures by bone mineral density have motivated searches for better clinical indicators of bone strength, and the high incidence of non-hip, non-spine fractures has raised interest in cortical bone. The aim of this study was to assess the accuracy of Cortical Bone Mechanics Technology™. CBMT is a new non-invasive 3-point bending technique for measuring the mechanical properties of cortical bone in the ulnas of living humans.

New Dopamine D2 Receptor Agonist, [H]MCL-536, for Detecting Dopamine D2high Receptors in Vivo.

Increases in the D2 receptor high affinity state are associated with certain neurological disorders. We synthesized and characterized the high-affinity D2high ligand [H]MCL-536 in competition binding against the D2/3 agonist R-(-)- N- n-propylnorapomorphine (NPA) and the D2/3 antagonist raclopride. The total binding of [H]MCL-536 (minus that in the presence of 100 nM NPA) was measured by saturation binding in CHO cells expressing human D2long; the data yielded separable, nonsaturable nonspecific, and saturable specific components.

Host non-inflammatory neutrophils mediate the engraftment of bioengineered vascular networks.

Notwithstanding remarkable progress in vascular network engineering, implanted bioengineered microvessels largely fail to form anastomoses with the host vasculature. Here, we demonstrate that implants containing assembled human vascular networks (A-Grafts) fail to engraft due to their inability to engage non-inflammatory host neutrophils upon implantation into mice. In contrast, unassembled vascular cells (U-Grafts) readily engage alternatively polarized neutrophils, which in turn serve as indispensable mediators of vascular assembly and anastomosis.

Anogenital infection by Chlamydia trachomatis and Neisseria gonorrhoeae in HIV-infected men and women in Salvador, Brazil.

Background: Infections caused by Chlamydia trachomatis and Neisseria gonorrhoeae are the most common bacterial sexually transmitted infections throughout the world. These sexually transmitted infections are a growing problem in people living with HIV/AIDS. However, the presence of these agents in extra genital sites, remains poorly studied in our country.

Oral r-(-)-11-o-valeryl-n-n-propylnoraporphine reverses motor deficits in mptp-treated marmosets.

Background: The D1/D2 dopamine agonist apomorphine has poor oral bioavailability, necessitating subcutaneous administration in the treatment of Parkinson's disease (PD). Acute subcutaneous injection is used as rescue therapy from "off" periods, whereas continuous subcutaneous infusion is used to increase "on" periods and to reduce dyskinesia when oral treatment fails. An orally active derivative of apomorphine would avoid the need for parenteral administration.

Convenient synthesis of 18F-radiolabeled R-(-)-N-n-propyl-2-(3-fluoropropanoxy-11-hydroxynoraporphine.

Aporphines are attractive candidates for imaging D2 receptor function because, as agonists rather than antagonists, they are selective for the receptor in the high affinity state. In contrast, D2 antagonists do not distinguish between the high and low affinity states, and in vitro data suggests that this distinction may be important in studying diseases characterized by D2 dysregulation, such as schizophrenia and Parkinson's disease. Accordingly, MCL-536 (R-(-)-N-n-propyl-2-(3-[(18)F]fluoropropanoxy-11-hydroxynoraporphine) was selected for labeling with (18)F based on in vitro data obtained for the non-radioactive ((19)F) compound.

Pharmacological characterization and therapeutic potential for the treatment of opioid abuse with ATPM-ET, an N-ethyl substituted aminothiazolomorphinan with κ agonist and μ agonist/antagonist activity.

We previously reported that the κ agonists with mixed μ activity could attenuate heroin self-administration with less potential to develop tolerance. The present study further investigated the effects of (-)-3-N-Ethylamino-thiazolo[5,4-b]-N-cyclopropylmethylmorphinan hydrochloride (ATPM-ET), a κ agonist and μ agonist/antagonist, on the acquisition and reinstatement of morphine-induced conditioned place preference (CPP), heroin self-administration and heroin-primed reinstatement of drug-seeking behavior. We found that ATPM-ET produced a longer duration of potent antinociceptive effects with less side effect of sedation.

(18)F-MCL-524, an (18)F-Labeled Dopamine D2 and D3 Receptor Agonist Sensitive to Dopamine: A Preliminary PET Study.

Unlabelled: PET has been used to examine changes in neurotransmitter concentrations in the living brain. Pioneering PET studies on the dopamine system have used D2 and D3 receptor (D2/D3) antagonists such as (11)C-raclopride. However, more recently developed agonist radioligands have shown enhanced sensitivity to endogenous dopamine.

Preliminary pharmacological evaluation of enantiomeric morphinans.

A series of levo- and dextromorphinan pairs have been synthesized and evaluated for their affinities to the mu, kappa, and delta opioid receptors, the N-methyl-D-aspartate (NMDA) channel, and sigma 1 and 2 receptors. It was found that levo isomers tended to have higher affinities at the opioid receptors and moderate to high affinities to the NMDA and sigma receptors, while dextro isomers tended to have lower affinities to the opioid receptors but comparatively higher affinities to the NMDA and sigma receptors. This series of compounds have interesting and complex pharmacological profiles, and merit further investigation as potential therapies for drug abuse treatment.

Synthesis and pharmacological evaluation of aminothiazolomorphinans at the mu and kappa opioid receptors.

Previous studies with aminothiazolomorphinans suggested that this class of opioid ligands may be useful as a potential pharmacotherapeutic to decrease drug abuse. Novel aminothiazole derivatives of cyclorphan were prepared to evaluate a series of aminothiazolomorphinans with varying pharmacological properties at the κ opioid receptor (KOR) and μ opioid receptor (MOR). This study was focused on exploring the regioisomeric analogs with the aminothiazole on the C-ring of the morphinan skeleton.

Synthesis, binding affinity, and functional in vitro activity of 3-benzylaminomorphinan and 3-benzylaminomorphine ligands at opioid receptors.

A series of 3-benzylamino-3-desoxymorphinan (I) and 3-benzylamino-3-desoxymorphine (II) derivatives were synthesized and evaluated for their binding affinities, and functional activity data are presented at MOR, KOR, and DOR. Some of these ligands were found to have high binding affinity at MOR and KOR and displayed increased selectivity at MOR over KOR and DOR compared to butorphan or cyclorphan. The most selective compound, 3-(3'-hydroxybenzyl)amino-17-methylmorphinan (4g) (24-fold MOR to KOR and 1700-fold MOR to DOR) also showed high binding affinity (0.

Synthesis and Evaluation of Fluorinated Aporphines: Potential Positron Emission Tomography Ligands for D2 Receptors.

The 2-fluoroalkoxy substituted catechol-aporphines 6, 8a-f and 11-monohydroxyaporphines 11a-e were synthesized and found to have high in vitro affinity and selectivity for the dopamine D(2) receptors. The catechol aporphines, 8b and 8d, and the monohydroxy aporphines, 11a-d, were identified as candidates for development as potential PET ligands.

Synthesis and binding affinity of novel mono- and bivalent morphinan ligands for κ, μ, and δ opioid receptors.

A novel series of homo- and heterodimeric ligands containing κ/μ agonist and μ agonist/antagonist pharmacophores joined by a 10-carbon ester linker chain were synthesized and evaluated for their in vitro binding affinity at κ, μ, and δ opioid receptors, and their functional activities were determined at κ and μ receptors in [(35)S]GTPγS functional assays. Most of these compounds had high binding affinity at μ and κ receptors (K(i) values less than 1nM). Compound 15b, which contains butorphan (1) at one end of linking chain and butorphanol (5) at the other end, was the most potent ligand in this series with binding affinity K(i) values of 0.

Aminothiazolomorphinans with mixed κ and μ opioid activity.

A series of N-substituted and N'-substituted aminothiazole-derived morphinans (5) were synthesized for expanding the structure-activity relationships of aminothiazolo-morphinans. Although their affinities were somewhat lower than their prototype aminothiazolo-N-cyclopropylmorphinan (3), 3-aminothiazole derivatives of cyclorphan (1) containing a primary amino group displayed high affinity and selectivity at the κ and μ opioid receptors. [(35)S]GTPγS binding assays showed that the aminothiazolomorphinans were κ agonists with mixed agonist and antagonist activity at the μ opioid receptor.

Opioid bifunctional ligands from morphine and the opioid pharmacophore Dmt-Tic.

Bifunctional ligands containing an ester linkage between morphine and the δ-selective pharmacophore Dmt-Tic were synthesized, and their binding affinity and functional bioactivity at the μ, δ and κ opioid receptors determined. Bifunctional ligands containing or not a spacer of β-alanine between the two pharmacophores lose the μ agonism deriving from morphine becoming partial μ agonists 4 or μ antagonists 5. Partial κ agonism is evidenced only for compound 4.