Your search keyword '"Charlotte E. Farquhar"' showing total 15 results

1. Automated Flow Synthesis of Peptide–PNA Conjugates

Author

Chengxi Li, Alex J. Callahan, Kruttika S. Phadke, Bryan Bellaire, Charlotte E. Farquhar, Genwei Zhang, Carly K. Schissel, Alexander J. Mijalis, Nina Hartrampf, Andrei Loas, David E. Verhoeven, and Bradley L. Pentelute

Subjects

Chemistry, QD1-999

Published

2021

2. Palladium-Mediated Incorporation of Carboranes into Small Molecules, Peptides, and Proteins

Author

Martin Gazvoda, Heemal H. Dhanjee, Jacob Rodriguez, Joseph S. Brown, Charlotte E. Farquhar, Nicholas L. Truex, Andrei Loas, Stephen L. Buchwald, and Bradley L. Pentelute

Subjects

Colloid and Surface Chemistry, Proteins, General Chemistry, Trastuzumab, Boranes, Peptides, Biochemistry, Article, Palladium, Catalysis

Abstract

Carboranes represent a class of compounds with increasing therapeutic potential. However, few general approaches to readily embed carboranes into small molecules, peptides, and proteins are available. We report a strategy based on palladium-mediated C–X (X = C, S, and N) bond formation for the installation of carborane-containing moieties onto small molecules and peptides. We demonstrate the ability of Pd-based reagents with appropriate ligands to overcome the high hydrophobicity of the carborane group and enable chemoselective conjugation of cysteine residues at room temperature in aqueous buffer. Accordingly, carboranes can be efficiently installed on proteins by employing a combination of a bis-sulfonated biarylphosphine-ligated Pd reagent in an aqueous histidine buffer. This method is successfully employed on nanobodies, a fully synthetic affibody, and the antibody therapeutics trastuzumab and cetuximab. The conjugates of the affibody Z(HER2) and the trastuzumab antibody retained binding to their target antigens. Conjugated proteins maintain their activity in cell-based functional assays in HER2-positive BT-474 cell lines. This approach enables the rapid incorporation of carborane moieties into small molecules, peptides, and proteins for further exploration in boron neutron capture therapy, which requires the targeted delivery of boron-dense groups.

Published

2022

3. Automated Fast-Flow Synthesis of C9orf72 Dipeptide Repeat Proteins

Author

Kohei Sato, Charlotte E. Farquhar, and Bradley Pentelute

Abstract

An expansion of the hexanucleotide (GGGGCC) repeat sequence in the chromosome 9 open frame 72 (c9orf72) is the most common genetic mutation in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). The mutation leads to the production of toxic dipeptide repeat proteins (DPRs) that induce neurodegeneration. However, the fundamental physicochemical properties of DPRs remain largely unknown due to their limited availability. Here, we synthesized the c9orf72 DPRs poly-glycine-arginine (poly-GR), poly-proline-arginine (poly-PR), poly-glycine-proline (poly-GP), poly-proline-alanine (poly-PA), and poly-glycine-alanine (poly-GA) using automated fast-flow peptide synthesis (AFPS) and achieved single-domain chemical synthesis of proteins with up to 200 amino acids. Circular dichroism spectroscopy of the synthetic DPRs revealed that proline-containing poly-PR, poly-GP, and poly-PA could adopt polyproline II-like helical secondary structures. In addition, structural analysis by size-exclusion chromatography indicated that longer poly-GP and poly-PA might aggregate. Furthermore, cell viability assay showed that human neuroblastoma cells cultured with poly-GR and poly-PR with longer repeat length resulted in reduced cell viability, while poly-GP and poly-PA did not, thereby reproducing the cytotoxic property of endogenous DPRs. This research demonstrated the potential of AFPS to synthesize low-complexity peptides and proteins necessary for studying their pathogenic mechanisms and constructing disease models.

Published

2023

4. Secondary Amino Alcohols: Traceless Cleavable Linkers for Use in Affinity Capture and Release

Author

Charlotte E. Farquhar, Sebastian Pomplun, Carly K. Schissel, Adeline Marie Schmitt, Christopher R. Shugrue, Bradley L. Pentelute, and Massachusetts Institute of Technology. Department of Chemistry

Subjects

chemistry.chemical_classification, Protein Conformation, 010405 organic chemistry, Chemistry, Substrate (chemistry), Peptide, General Chemistry, 010402 general chemistry, Cleavage (embryo), Amino Alcohols, 01 natural sciences, Combinatorial chemistry, Reductive amination, Article, Catalysis, 0104 chemical sciences, Serine, chemistry.chemical_compound, Peptide Library, Peptide synthesis, Bioorthogonal chemistry, Peptides, Linker

Abstract

Capture and release of peptides is often a critical operation in the pathway to discovering materials with novel functions. However, the best methods for efficient capture impede facile release. To overcome this challenge, we report linkers based on secondary amino alcohols for the release of peptides after capture. These amino alcohols are based on serine (seramox) or isoserine (isoseramox) and can be incorporated into peptides during solid-phase peptide synthesis through reductive amination. Both linkers are quantitatively cleaved within minutes under NaIO4 treatment. Cleavage of isoseramox produced a native peptide N-terminus. This linker also showed broad substrate compatibility; incorporation into a synthetic peptide library resulted in the identification of all sequences by nanoLC-MS/MS. The linkers are cell compatible; a cell-penetrating peptide that contained this linker was efficiently captured and identified after uptake into cells. These findings suggest that such secondary amino alcohol based linkers might be suitable tools for peptide-discovery platforms., National Institutes of Health (Grants R01 GM110535, F32 GM133073), National Science Foundation (Grants 4000057398, 4000057441)

Published

2020

5. In-cell penetration selection—mass spectrometry produces noncanonical peptides for antisense delivery

Author

Carly K. Schissel, Charlotte E. Farquhar, Andrei Loas, Annika B. Malmberg, and Bradley L. Pentelute

Subjects

Molecular Medicine, General Medicine, Biochemistry

Abstract

Peptide-mediated delivery of macromolecules in cells has significant potential therapeutic benefits, but no therapy employing cell-penetrating peptides (CPPs) has reached the market after 30 years of investigation due to challenges in the discovery of new, more efficient sequences. We developed a method for in-cell penetration selection-mass spectrometry (in-cell PS-MS) to discover peptides from a synthetic library capable of delivering macromolecule cargo to the cytosol. This method was inspired by recent in vivo selection approaches for cell-surface screening, with an added spatial dimension resulting from subcellular fractionation. A representative peptide discovered in the cytosolic extract, Pep1a, is nearly 100-fold more active toward antisense phosphorodiamidate morpholino oligomer (PMO) delivery compared to a sequence identified from a whole cell extract, which includes endosomes. Pep1a is composed of D-amino acids and two non-α-amino acids. Pulse-chase and microscopy experiments revealed that while the PMO-Pep1a conjugate is likely taken up by endosomes, it can escape to localize to the nucleus. In-cell PS-MS introduces a means to empirically discover unnatural synthetic peptides for subcellular delivery of therapeutically relevant cargo.

Published

2022

6. Automated Flow Synthesis of Peptide–PNA Conjugates

Author

Charlotte E. Farquhar, Chengxi Li, Kruttika S. Phadke, Carly K. Schissel, Alexander J. Mijalis, Genwei Zhang, Bryan H. Bellaire, Nina Hartrampf, David Verhoeven, Bradley L. Pentelute, Andrei Loas, Alex J. Callahan, University of Zurich, and Pentelute, Bradley L

Subjects

chemistry.chemical_classification, 10120 Department of Chemistry, Flow (mathematics), Chemistry, General Chemical Engineering, 540 Chemistry, Peptide, 1600 General Chemistry, General Chemistry, 1500 General Chemical Engineering, Combinatorial chemistry, Conjugate

Abstract

Antisense peptide nucleic acids (PNAs) have yet to translate to the clinic because of poor cellular uptake, limited solubility, and rapid elimination. Cell-penetrating peptides (CPPs) covalently attached to PNAs may facilitate clinical development by improving uptake into cells. We report an efficient technology that utilizes a fully automated fast-flow instrument to manufacture CPP-conjugated PNAs (PPNAs) in a single shot. The machine is rapid, with each amide bond being formed in 10 s. Anti-IVS2-654 PPNA synthesized with this instrument presented threefold activity compared to transfected PNA in a splice-correction assay. We demonstrated the utility of this approach by chemically synthesizing eight anti-SARS-CoV-2 PPNAs in 1 day. A PPNA targeting the 5' untranslated region of SARS-CoV-2 genomic RNA reduced the viral titer by over 95% in a live virus infection assay (IC

Published

2022

7. Sex, species and age: Effects of rodent demographics on the pharmacology of ∆

Author

Jenny L, Wiley, Daniel G, Barrus, Charlotte E, Farquhar, Timothy W, Lefever, and Thomas F, Gamage

Subjects

Cannabinoid Receptor Agonists, Male, Mice, Inbred ICR, Sex Characteristics, Dose-Response Relationship, Drug, organic chemicals, Age Factors, Rodentia, Article, Rats, Discrimination Learning, Mice, Inbred C57BL, Rats, Sprague-Dawley, Mice, Receptor, Cannabinoid, CB1, Species Specificity, mental disorders, Reaction Time, Animals, Female, Dronabinol

Abstract

Cannabis edibles are becoming more common in an increasingly diverse population of users, and the impact of first pass metabolism on cannabis’s pharmacological profile across age and sex is not well understood. The present study examined the impact of age, sex and rodent species on the effects of intraperitoneal (i.p.) delta-9-tetrahydrocannabinol (THC) and its primary psychoactive metabolite, 11-OH-THC, in rodent models of psychoactivity and molecular assays of cannabinoid receptor type-1 (CB(1)) pharmacology. Like oral THC, i.p. THC also undergoes first pass metabolism. In both species and sexes, 11-OH-THC exhibited marginally higher affinity (~1.5 fold) than THC and both served as partial agonists in [(35)S]GTPγS binding with equivalent potency; 11-OH-THC exhibited slightly greater efficacy in rat brain tissue. In ICR mice, 11-OH-THC exhibited greater potency than THC in assays of catalepsy (7- to 15-fold) and hypothermia (7- to 31-fold). Further, 11-OH-THC was more potent in THC drug discrimination (7- to 9-fold) in C57Bl/6J mice, with THC-like discriminative stimulus effects being CB(1)-, but not CB(2)-, mediated. THC’s discriminative stimulus also was stable across age in mice, as its potency did not change over the course of the experiment (~17 months). While sex differences in THC’s effects were not revealed in mice, THC was significantly more potent in females Sprague-Dawley rats than in males trained to discriminate THC from vehicle. This study demonstrates a cross-species in the psychoactive effects of i.p. THC across sex that may be related to differential metabolism of THC into its psychoactive metabolite 11-OH-THC, suggesting that species is a crucial design consideration in the preclinical study of phytocannabinoids.

Published

2020

8. Correction to 'Palladium-Mediated Incorporation of Carboranes into Small Molecules, Peptides, and Proteins'

Author

Martin Gazvoda, Heemal H. Dhanjee, Jacob Rodriguez, Joseph S. Brown, Charlotte E. Farquhar, Nicholas L. Truex, Andrei Loas, Stephen L. Buchwald, and Bradley L. Pentelute

Subjects

Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis

Published

2022

9. Diarylureas Containing 5-Membered Heterocycles as CB1 Receptor Allosteric Modulators: Design, Synthesis, and Pharmacological Evaluation

Author

Thuy Nguyen, Jenny L. Wiley, Yanan Zhang, Tiffany L. Langston, Ann M. Decker, Terrence Peter Kenakin, Charlotte E. Farquhar, Brian F. Thomas, Thomas F. Gamage, and Nadezhda German

Subjects

Agonist, 0303 health sciences, Allosteric modulator, Physiology, medicine.drug_class, Stereochemistry, Chemistry, Cognitive Neuroscience, Ligand binding assay, Allosteric regulation, Cooperative binding, Cooperativity, Cell Biology, General Medicine, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, medicine, Structure–activity relationship, Receptor, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Allosteric modulators have attracted significant interest as an alternate strategy to modulate CB1 receptor signaling for therapeutic benefits that may avoid the adverse effects associated with orthosteric ligands. Here we extended our previous structure-activity relationship studies on the diarylurea-based CB1 negative allosteric modulators (NAMs) by introducing five-membered heterocycles to replace the 5-pyrrolidinylpyridinyl group in PSNCBAM-1 (1), one of the first generation CB1 allosteric modulators. Many of these compounds had comparable potency to 1 in blocking the CB1 agonist CP55,940 stimulated calcium mobilization and [35S]GTP-γ-S binding. Similar to 1, most compounds showed positive cooperativity by increasing [3H]CP55,940 binding, consistent with the positive allosteric modulator (PAM)-antagonist mechanism. Interestingly, these compounds exhibited differences in ability to increase specific binding of [3H]CP55,940 and decrease binding of the antagonist [3H]SR141716. In saturation binding studies, only increases in [3H]CP55,940 Bmax, but not Kd, were observed, suggesting that these compounds stabilize low affinity receptors into a high affinity state. Among the series, the 2-pyrrolyl analogue (13) exhibited greater potency than 1 in the [35S]GTP-γ-S binding assay and significantly enhanced the maximum binding level in the [3H]CP5,5940 binding assay, indicating greater CB1 receptor affinity and/or cooperativity.

Published

2018

10. The great divide: Separation between in vitro and in vivo effects of PSNCBAM-based CB 1 receptor allosteric modulators

Author

Thuy Nguyen, Charlotte E. Farquhar, Yanan Zhang, Timothy W. Lefever, Jenny L. Wiley, Brian F. Thomas, and Thomas F. Gamage

Subjects

Male, 0301 basic medicine, Cannabinoid receptor, Allosteric modulator, Pyridines, medicine.medical_treatment, Allosteric regulation, Cooperativity, Motor Activity, Pharmacology, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, Discrimination, Psychological, 0302 clinical medicine, Allosteric Regulation, Piperidines, Receptor, Cannabinoid, CB1, In vivo, Cerebellum, Cannabinoid Receptor Modulators, mental disorders, medicine, Animals, Drug Interactions, Dronabinol, Structural analog, Mice, Inbred ICR, Dose-Response Relationship, Drug, Chemistry, Phenylurea Compounds, Cyclohexanols, Mice, Inbred C57BL, 030104 developmental biology, Guanosine 5'-O-(3-Thiotriphosphate), Pregnenolone, Pyrazoles, Cannabinoid, Rimonabant, 030217 neurology & neurosurgery, medicine.drug

Abstract

While allosteric modulators of the cannabinoid type-1 receptor (CB1) continue to be developed and characterized, the gap between the in vitro and in vivo data is widening, raising questions regarding translatability of their effects and biological relevance. Among the CB1 allosteric modulators, PSNCBAM-1 has received little attention regarding its effects in vivo. Recently, pregnenolone was reported to act as an allosteric modulator of CB1, blocking THC’s effects in vitro and in vivo, highlighting the potential of CB1 allosteric modulators for treatment of cannabis intoxication. We investigated the pharmacological effects of PSNCBAM-1 and two structural analogs, RTICBM-15 and -28, as well as pregnenolone, in both signaling and behavioral assays including [35S]GTPγS binding, the cannabinoid tetrad and drug discrimination. While the CB1 allosteric modulator PSNCBAM-1 attenuated THC-induced anti-nociception and its structural analog RTICBM-28 reduced THC’s potency in drug discrimination, most cannabinoid effects in mice were unaffected. In contrast to the mouse studies, PSNCBAM-1 and analogs insurmountably antagonized CP55,940- and THC-stimulated [35S]GTPγS binding and exhibited negative binding cooperativity with [3H]SR141716 with similar apparent affinities. Notably, RTICBM-28, which contains a cyano substitution at the 4-chlorophenyl position of PSNCBAM-1, exhibited enhanced binding cooperativity with CP55,940. In contrast to previous findings, pregnenolone did not block THC’s effects in drug discrimination, the cannabinoid tetrad, or [35S]GTPγS. These data further highlight the difficulty in translating pharmacological effects of CB1 allosteric modulators in vivo but confirm the established pharmacology of PSNCBAM-1 and analogs in molecular assays of CB1 receptor function.

Published

2017

11. Novel Diarylurea Based Allosteric Modulators of the Cannabinoid CB1 Receptor: Evaluation of Importance of 6-Pyrrolidinylpyridinyl Substitution

Author

Brian F. Thomas, Charlotte E. Farquhar, Ann M. Decker, Jun-Xu Li, Tifffany L Langston, Thuy Nguyen, Thomas F. Gamage, Yanan Zhang, Jenny L. Wiley, and Nadezhda German

Subjects

0301 basic medicine, Pyrrolidines, Cannabinoid receptor, Pyridines, medicine.medical_treatment, Allosteric regulation, Pharmacology, Article, Calcium in biology, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Allosteric Regulation, Receptor, Cannabinoid, CB1, Drug Discovery, medicine, Animals, Humans, Receptor, Chemistry, Phenylurea Compounds, In vitro toxicology, Rats, 030104 developmental biology, Guanosine 5'-O-(3-Thiotriphosphate), Cell culture, Microsomes, Liver, Microsome, Molecular Medicine, Calcium, Cannabinoid, 030217 neurology & neurosurgery

Abstract

Allosteric modulators of the cannabinoid CB1 receptor have recently been reported as an alternative approach to modulate the CB1 receptor for therapeutic benefits. In this study, we report the design and synthesis of a series of diarylureas derived from PSNCBAM-1 (2). Similar to 2, these diarylureas dose-dependently inhibited CP55,940-induced intracellular calcium mobilization and [35S]GTP-γ-S binding while enhancing [3H]CP55,940 binding to the CB1 receptor. Structure-activity relationship studies revealed that the pyridinyl ring of 2 could be replaced by other aromatic rings and the pyrrolidinyl ring is not required for CB1 allosteric modulation. 34 (RTICBM-74) had similar potencies as 2 in all in vitro assays but showed significantly improved metabolic stability to rat liver microsomes. More importantly, 34 was more effective than 2 in attenuating the reinstatement of extinguished cocaine-seeking behavior in rats, demonstrating the potential of this diarylurea series as promising candidates for the development of relapse treatment of cocaine addiction.

Published

2017

12. Synthetic Cannabinoid Hydroxypentyl Metabolites Retain Efficacy at Human Cannabinoid Receptors

Author

Iain S. McGregor, Charlotte E. Farquhar, Jenny L. Wiley, Mark L. Trudell, Brian F. Thomas, Ryan J. McKinnie, Richard C. Kevin, and Thomas F. Gamage

Subjects

0301 basic medicine, Drug, Cellular and Molecular, Cannabinoid receptor, Synthetic Drugs, media_common.quotation_subject, medicine.medical_treatment, Pharmacology, Receptor, Cannabinoid, CB2, 03 medical and health sciences, 0302 clinical medicine, Receptor, Cannabinoid, CB1, In vivo, Synthetic cannabinoids, medicine, Potency, Humans, Receptor, media_common, Dose-Response Relationship, Drug, Chemistry, Cannabinoids, Biological activity, Cyclohexanols, 030104 developmental biology, HEK293 Cells, Molecular Medicine, Cannabinoid, 030217 neurology & neurosurgery, medicine.drug, Protein Binding

Abstract

Synthetic cannabinoids (SCs) are novel psychoactive substances that are easily acquired, widely abused as a substitute for cannabis, and associated with cardiotoxicity and seizures. Although the structural bases of these compounds are scaffolds with known affinity and efficacy at the human cannabinoid type-1 receptor (hCB(1)), upon ingestion or inhalation they can be metabolized to multiple chemical entities of unknown pharmacological activity. A large proportion of these metabolites are hydroxylated on the pentyl chain, a key substituent that determines receptor affinity and selectivity. Thus, the pharmacology of SC metabolites may be an important component in understanding the in vivo effects of SCs. We examined nine SCs (AB-PINACA, 5F-AB-PINACA, ADB/MDMB-PINACA, 5F-ADB, 5F-CUMYL-PINACA, AMB-PINACA, 5F-AMB, APINACA, and 5F-APINACA) and their hydroxypentyl (either 4-OH or 5-OH) metabolites in [(3)H]CP55,940 receptor binding and the [(35)S]GTPγS functional assay to determine the extent to which these metabolites retain activity at cannabinoid receptors. All of the SCs tested exhibited high affinity (

Published

2019

13. Sex, species and age: Effects of rodent demographics on the pharmacology of ∆9-tetrahydrocanabinol

Author

Charlotte E. Farquhar, Thomas F. Gamage, Jenny L. Wiley, Timothy W. Lefever, and Daniel Gadsden Barrus

Subjects

Pharmacology, Cannabinoid receptor, biology, organic chemicals, Metabolite, medicine.medical_treatment, Catalepsy, medicine.disease, biology.organism_classification, Partial agonist, 030227 psychiatry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, chemistry, mental disorders, Delta-9-tetrahydrocannabinol, medicine, Potency, Cannabis, Cannabinoid, Biological Psychiatry

Abstract

Cannabis edibles are becoming more common in an increasingly diverse population of users, and the impact of first pass metabolism on cannabis's pharmacological profile across age and sex is not well understood. The present study examined the impact of age, sex and rodent species on the effects of intraperitoneal (i.p.) delta-9-tetrahydrocannabinol (THC) and its primary psychoactive metabolite, 11-OH-THC, in rodent models of psychoactivity and molecular assays of cannabinoid receptor type-1 (CB1) pharmacology. Like oral THC, i.p. THC also undergoes first pass metabolism. In both species and sexes, 11-OH-THC exhibited marginally higher affinity (~1.5 fold) than THC and both served as partial agonists in [35S]GTPγS binding with equivalent potency; 11-OH-THC exhibited slightly greater efficacy in rat brain tissue. In ICR mice, 11-OH-THC exhibited greater potency than THC in assays of catalepsy (7- to 15-fold) and hypothermia (7- to 31-fold). Further, 11-OH-THC was more potent in THC drug discrimination (7- to 9-fold) in C57Bl/6 J mice, with THC-like discriminative stimulus effects being CB1-, but not CB2-, mediated. THC's discriminative stimulus also was stable across age in mice, as its potency did not change over the course of the experiment (~17 months). While sex differences in THC's effects were not revealed in mice, THC was significantly more potent in females Sprague-Dawley rats than in males trained to discriminate THC from vehicle. This study demonstrates a cross-species in the psychoactive effects of i.p. THC across sex that may be related to differential metabolism of THC into its psychoactive metabolite 11-OH-THC, suggesting that species is a crucial design consideration in the preclinical study of phytocannabinoids.

Published

2021

14. Targeting Glioblastoma Using a Novel Peptide Specific to a Deglycosylated Isoform of Brevican

Author

Benjamin Scott, Sonja Bergmann, Marie Foley Kijewski, Charlotte E. Farquhar, Keith L. Ligon, Choi-Fong Cho, Mykola Zdioruk, Shuyan Wang, Sean E. Lawler, Mariano S. Viapiano, Leonard G. Luyt, Colin M. Fadzen, Bo Yeun Yang, Shipra Dubey, Martine L.M. Lamfers, Nina Hartrampf, E. Antonio Chiocca, Fernanda Bononi, Justin M. Wolfe, Marcelo F. DiCarli, Yarah Ghotmi, Bradley L. Pentelute, Niklas von Spreckelsen, J Roscoe Wasserburg, Emily Murrell, Neurosurgery, University of Zurich, Lawler, Sean E, and Cho, Choi‐Fong

Subjects

10120 Department of Chemistry, Gene isoform, 2716 Genetics (clinical), Glycosylation, 3003 Pharmaceutical Science, Brain tumor, Pharmaceutical Science, Medicine (miscellaneous), Peptide, 2704 Biochemistry (medical), Article, Extracellular matrix, chemistry.chemical_compound, SDG 3 - Good Health and Well-being, Downregulation and upregulation, Glioma, 540 Chemistry, medicine, 2736 Pharmacology (medical), Pharmacology (medical), Brevican, Genetics (clinical), Pharmacology, chemistry.chemical_classification, Biochemistry (medical), 2701 Medicine (miscellaneous), medicine.disease, nervous system diseases, 3004 Pharmacology, chemistry, Cancer research

Abstract

Glioblastoma (GBM) is the most common and deadliest form of brain tumor and remains amongst the most difficult cancers to treat. Brevican (Bcan), a central nervous system (CNS)-specific extracellular matrix protein, is upregulated in high-grade glioma cells, including GBM. A Bcan isoform lacking most glycosylation, dg-Bcan, is found only in GBM tissues. Here, dg-Bcan is explored as a molecular target for GBM. In this study, a d-peptide library is screened to identify a small 8-amino acid dg-Bcan-Targeting Peptide (BTP) candidate, called BTP-7 that binds dg-Bcan with high affinity and specificity. BTP-7 is preferentially internalized by dg-Bcan-expressing patient-derived GBM cells. To demonstrate GBM targeting, BTP-7 is radiolabeled with 18F, a radioisotope of fluorine, and increased radiotracer accumulation is found in intracranial GBM established in mice using positron emission tomography (PET) imaging. dg-Bcan is an attractive molecular target for GBM, and BTP-7 represents a promising lead candidate for further development into novel imaging agents and targeted therapeutics.

Published

2021

15. Molecular and Behavioral Pharmacological Characterization of Abused Synthetic Cannabinoids MMB- and MDMB-FUBINACA, MN-18, NNEI, CUMYL-PICA, and 5-Fluoro-CUMYL-PICA

Author

Richard C. Kevin, Julie A. Marusich, Timothy W. Lefever, Charlotte E. Farquhar, Brian F. Thomas, Thomas F. Gamage, Iain S. McGregor, and Jenny L. Wiley

Subjects

Male, Cannabinoid receptor, Indazoles, medicine.medical_treatment, CHO Cells, Pharmacology, 01 natural sciences, Receptor, Cannabinoid, CB2, 03 medical and health sciences, Mice, 0302 clinical medicine, Cricetulus, Neuropharmacology, Receptor, Cannabinoid, CB1, Synthetic cannabinoids, mental disorders, medicine, Cannabinoid receptor type 2, Cyclic AMP, Animals, Humans, Receptor, Cardiotoxicity, biology, Chemistry, Cannabinoids, Illicit Drugs, 010401 analytical chemistry, HEK 293 cells, Valine, biology.organism_classification, 0104 chemical sciences, Mice, Inbred C57BL, 1-Naphthylamine, HEK293 Cells, Molecular Medicine, lipids (amino acids, peptides, and proteins), Cannabis, Cannabinoid, 030217 neurology & neurosurgery, medicine.drug, Signal Transduction

Abstract

Synthetic cannabinoids are a class of novel psychoactive substances that exhibit high affinity at the cannabinoid type-1 (CB(1)) receptor and produce effects similar to those of Δ-9-tetrahydrocannabinol (THC), the primary psychoactive constituent of cannabis. Illicit drug manufacturers are continually circumventing laws banning the sale of synthetic cannabinoids by synthesizing novel structures and doing so with little regard for the potential impact on pharmacological and toxicological effects. Synthetic cannabinoids produce a wide range of effects that include cardiotoxicity, seizure activity, and kidney damage, and they can cause death. Six synthetic cannabinoids, recently detected in illicit preparations, MMB-FUBINACA, MDMB-FUBINACA, CUMYL-PICA, 5F-CUMYL-PICA, NNEI, and MN-18 were assessed for: 1) receptor binding affinity at the human CB(1) and human CB(2) receptors, 2) function in [(35)S]GTPγS and cAMP signaling, and 3) THC-like effects in a mouse drug discrimination assay. All six synthetic cannabinoids exhibited high affinity for human cannabinoid receptors type-1 and type-2 and produced greater maximal effects than THC in [(35)S]GTPγS and cAMP signaling. Additionally, all six synthetic cannabinoids substituted for THC in drug discrimination, suggesting they probably possess subjective effects similar to those of cannabis. Notably, MDMB-FUBINACA, a methylated analog of MMB-FUBINACA, had higher affinity for CB(1) than the parent, showing that minor structural modifications being introduced can have a large impact on the pharmacological properties of these drugs. This study demonstrates that novel structures being sold and used illicitly as substitutes for cannabis are retaining high affinity at the CB(1) receptor, exhibiting greater efficacy than THC, and producing THC-like effects in models relevant to subjective effects in humans.

Published

2017