Design and synthesis of protein kinase C epsilon selective diacylglycerol lactones (DAG-lactones)

Ann, Jihyae; Yoon, Suyoung; Baek, Jisoo; Kim, Da Hye; Lewin, Nancy E.; Hill, Colin; Blumberg, Peter M.; Lee, Jeeyeon

doi:10.1016/j.ejmech.2014.11.025

Cited by 14 publications

(19 citation statements)

References 25 publications

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“…Extensive synthetic efforts have generated DAG-lactones substituted with a diversity of saturated and unsaturated alkyl and aryl chains at the sn-1 and sn-2 positions on the DAGlactone (21,26). In binding studies using a lipid mixture designed to mimic nuclear membranes (23), the DAG-lactone (E)-(2-(hydroxymethyl)-4-(3-isobutyl-5-methylhexylidene)-5oxotetrahydrofuran-2-yl)methyl pivalate (referred to here as AJH-836; Fig.…”

Section: Differential In Vitro Binding Of Ajh-836 To Pkc Isozymesmentioning

confidence: 99%

“…In binding studies using a lipid mixture designed to mimic nuclear membranes (23), the DAG-lactone (E)-(2-(hydroxymethyl)-4-(3-isobutyl-5-methylhexylidene)-5oxotetrahydrofuran-2-yl)methyl pivalate (referred to here as AJH-836; Fig. 1A) was found to display some specificity toward the novel PKC⑀ relative to the classical PKC␣, although the assay conditions were not fully comparable (26). For comparison, no specificity was observed under these conditions for the DAG-lactone (Z)-(2-(hydroxymethyl)-4-(3-methylbutylidene)-5-oxotetrahydrofuran-2-yl)methyl octadeca-9,11-diynoate (referred to here as AJH-1512; Fig.…”

Section: Differential In Vitro Binding Of Ajh-836 To Pkc Isozymesmentioning

confidence: 99%

“…It has been previously reported that natural DAGs bind with similar affinities to all cPKCs and nPKCs (25). Toward the objective of generating isozyme-specific PKC ligands, Ann et al (26) had described the incorporation of linoleic acid derivatives as well as saturated and unsaturated alkyl chains into the side chains of DAG-lactones and characterized these derivatives for their in vitro binding affinity toward PKC⑀, an oncogenic member of the PKC family, relative to PKC␣ (27)(28)(29)(30)(31)(32). Following up on this analysis, here we describe that the DAG-lactone AJH-836 showed marked selectivity for PKC⑀ and PKC␦ relative to PKC␣ in multiple cell types, unlike the typical phorbol ester PMA, and correspondingly displayed a distinct pattern of biological activity.…”

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confidence: 99%

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Characterization of AJH-836, a diacylglycerol-lactone with selectivity for novel PKC isozymes

Cooke

Zhou

Casado‐Medrano

et al. 2018

Journal of Biological Chemistry

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Diacylglycerol (DAG) is a key lipid second messenger downstream of cellular receptors that binds to the C1 domain in many regulatory proteins. Protein kinase C (PKC) isoforms constitute the most prominent family of signaling proteins with DAG-responsive C1 domains, but six other families of proteins, including the chimaerins, Ras-guanyl nucleotide-releasing proteins (RasGRPs), and Munc13 isoforms, also play important roles. Their significant involvement in cancer, immunology, and neurobiology has driven intense interest in the C1 domain as a therapeutic target. As with other classes of targets, however, a key issue is the establishment of selectivity. Here, using [H]phorbol 12,13-dibutyrate ([H]PDBu) competition binding assays, we found that a synthetic DAG-lactone, AJH-836, preferentially binds to the novel PKC isoforms PKCδ and PKCϵ relative to classical PKCα and PKCβII. Assessment of intracellular translocation, a hallmark for PKC activation, revealed that AJH-836 treatment stimulated a striking preferential redistribution of PKCϵ to the plasma membrane relative to PKCα. Moreover, unlike with the prototypical phorbol ester phorbol 12-myristate 13-acetate (PMA), prolonged exposure of cells to AJH-836 selectively down-regulated PKCδ and PKCϵ without affecting PKCα expression levels. Biologically, AJH-836 induced major changes in cytoskeletal reorganization in lung cancer cells, as determined by the formation of membrane ruffles, via activation of novel PKCs. We conclude that AJH-836 represents a C1 domain ligand with PKC-activating properties distinct from those of natural DAGs and phorbol esters. Our study supports the feasibility of generating selective C1 domain ligands that promote novel biological response patterns.

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Section: Differential In Vitro Binding Of Ajh-836 To Pkc Isozymesmentioning

confidence: 99%

Section: Differential In Vitro Binding Of Ajh-836 To Pkc Isozymesmentioning

confidence: 99%

mentioning

confidence: 99%

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Characterization of AJH-836, a diacylglycerol-lactone with selectivity for novel PKC isozymes

Cooke

Zhou

Casado‐Medrano

et al. 2018

Journal of Biological Chemistry

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“…The rationale behind this approach is that the low binding affinity of DAG relative to phorbol esters was attributable to the flexibility of the glycerol backbone, thus cyclization of the structure would reduce the entropic penalty associated with DAG binding. By modifying DAG lactones through incorporation of different branched hydrophobic chains it has been possible to generate ligands with preferential affinity for discrete PKCs or “non‐PKC” phorbol ester receptors (see below) . Although DAG lactones have not yet been fully characterized in a physiological setting, the expectation is that they could be rationally designed to dissect isozyme‐specific responses.…”

Section: Why Is Generating Isozyme Specific Pkc Modulators So Challenmentioning

confidence: 99%

“…66,67 One PKCs or "non-PKC" phorbol ester receptors (see below). [74][75][76][77] Although DAG lactones have not yet been fully characterized in a physiological setting, the expectation is that they could be rationally designed to dissect isozyme-specific responses.…”

Section: Why Is Generating Isozyme Specific Pkc Modulators So Challmentioning

confidence: 99%

Protein kinase C in cancer: The top five unanswered questions

Cooke

Magimaidas

Casado‐Medrano

et al. 2017

Molecular Carcinogenesis

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Few kinases have been studied as extensively as protein kinase C (PKC), particularly in the context of cancer. As major cellular targets for the phorbol ester tumor promoters and diacylglycerol (DAG), a second messenger generated by stimulation of membrane receptors, PKC isozymes play major roles in the control of signaling pathways associated with proliferation, migration, invasion, tumorigenesis, and metastasis. However, despite decades of research, fundamental questions remain to be answered or are the subject of intense controversy. Primary among these unresolved issues are the role of PKC isozymes as either tumor promoter or tumor suppressor kinases and the incomplete understanding on isozyme-specific substrates and effectors. The involvement of PKC isozymes in cancer progression needs to be reassessed in the context of specific oncogenic and tumor suppressing alterations. In addition, there are still major hurdles in addressing isozyme-specific function due to the limited specificity of most pharmacological PKC modulators and the lack of validated predictive biomarkers for response, which impacts the translation of these agents to the clinic. In this review we focus on key controversial issues and upcoming challenges, with the expectation that understanding the intricacies of PKC function will help fulfill the yet unsuccessful promise of targeting PKCs for cancer therapeutics.

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The First Enantioselective Organocatalytic Synthesis of 3‐Spiro‐α‐Alkylidene‐γ‐Butyrolactone Oxindoles

Cerisoli

Lombardo

Trombini

et al. 2016

Chemistry A European J

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A new and flexible methodology catalyzed by bifunctional chiral thioureas has been developed to react β-nitro oxindoles 1 with aldehydes. This approach allowed us to achieve the first enantioselective organocatalytic synthesis of 3-spiro-α-alkylidene-γ-butyrolactone oxindoles 3. We examined the scope of the two starting materials and, varying the structure of the β-nitro oxindole 1, intriguing new products, derived from unexpected transformations, have been stereoselectively obtained. The aim of this study was to merge two potentially bioactive structural motifs: the spirooxindole substructure and the α-alkylidene-γ-butyrolactone moiety. A preliminary NMR study on the ability to reversibly trap 2-aminoethanethiol gave us promising results.

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Design and synthesis of protein kinase C epsilon selective diacylglycerol lactones (DAG-lactones)

Cited by 14 publications

References 25 publications

Characterization of AJH-836, a diacylglycerol-lactone with selectivity for novel PKC isozymes

Characterization of AJH-836, a diacylglycerol-lactone with selectivity for novel PKC isozymes

Protein kinase C in cancer: The top five unanswered questions

The First Enantioselective Organocatalytic Synthesis of 3‐Spiro‐α‐Alkylidene‐γ‐Butyrolactone Oxindoles

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