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Scaffold hopping from (5-hydroxymethyl) isophthalates to multisubstituted pyrimidines diminishes binding affinity to the C1 domain of protein kinase C

PLoS ONE (2018) 13(4)
DOI: 10.1371/journal.pone.0195668
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Abstract

Protein kinase C (PKC) isoforms play a pivotal role in the regulation of numerous cellular functions, making them extensively studied and highly attractive drug targets. Utilizing the crystal structure of the PKCδ C1B domain, we have developed hydrophobic isophthalic acid derivatives that modify PKC functions by binding to the C1 domain of the enzyme. In the present study, we aimed to improve the drug-like properties of the isophthalic acid derivatives by increasing their solubility and enhancing the binding affinity. Here we describe the design and synthesis of a series of multisubstituted pyrimidines as analogs of C1 domain–targeted isophthalates and characterize their binding affinities to the PKCα isoform. In contrast to our computational predictions, the scaffold hopping from phenyl to pyrimidine core diminished the binding affinity. Although the novel pyrimidines did not establish improved binding affinity for PKCα compared to our previous isophthalic acid derivatives, the present results provide useful structure-activity relationship data for further development of ligands targeted to the C1 domain of PKC.

Figures

  • Fig 1. Scaffolds comparison. Comparison of the HMI scaffold (left) with the symmetrical 2,4,6-trisubstituted pyrimidine (center) and the asymmetrical 2,4,5,6-tetrasubstituted pyrimidine (right) scaffolds. Common moieties are color-coded: H-bond donor/acceptor hydroxy groups are shown in blue, carbonyl H-bond acceptor oxygens in red and hydrophobic substituents R in green.
  • Fig 2. Comparison of phorbol 13-acetate, HMI-1a3, 2b and 1f docked into the PKCδC1B domain (PDB: 1PTR). (A) Phorbol 13-acetate; (B) HMI-1a3; (C) 2b; (D) 1f. Color code: carbon atoms are shown in grey, oxygen atoms in red, nitrogen atoms in blue and fluorine atoms in lime. Hydrogen bonds are represented as cyan dashed lines. View from the top of the binding site.
  • Fig 3. Synthesis and derivatization of the 2,4,6-trisubstituted pyrimidines 1a–h. Conditions: (a) MeCN/1,4-dioxane, rt, 24 h, 63%; (b) alcohol, H2SO4 (cat.), 100 ˚C, 3 h, 17–84%; (c) CAN, MeCN/H2O, -15 ˚C, 10 min, 49–80%.
  • Fig 4. Synthesis and derivatization of the 2,4,5,6-tetrasubstituted pyrimidines 2a–l. Conditions: (a) TEA, EtOH, reflux, 2.5 h, 31%; (b) POBr3, DMF, MW 90 ˚C, 10 min, 75%; (c) alcohol, NaH, THF, 0 ˚C! rt, overnight (20–22 h), 5–68%; (d) SOCl2, alcohol, MW 90 ˚C, 1 h, 33–50%; (e) CDI, DBU, DMAP, DMF, MW 50 ˚C, 1 h, 51–74%; (f) 2 M Me3SiCHN2 in Et2O, CH2Cl2/MeOH, 0 ˚C, 30 min, 44–100%; (g) CAN, MeCN/H2O, -15 ˚C, 10 min, 17–76%.
  • Fig 5. 3D chemographic plot of PKC-targeted compounds from two different angles. Color code: Pyrimidines are shown in green; HMIs in blue; bryostatins in red; phorbol esters in yellow; DAG-lactones in purple; iripallidal in black, ingenol 3-angelate and prostratin in orange; mezerein in cyan; 9-decyl-benzolactam-V8 and indolactam-V in magenta. Pyrimidines 1e and 2a, HMI-1a3 (towards the PC2-boundary) and HMI-1b11 (central area) are represented as cubes. The full list of the compounds, ChemGPS-NP raw data, SMILES and structures are available in S1 File.
  • Fig 6. Data comparison for HMI-1a3, symmetrical pyrimidines 1a–h and unsymmetrical pyrimidines 2a–l.
  • Fig 7. Representative binding curves for HMI 1a3, pyrimidines 1e, 1g, 2d, 2l and PMA. Binding of [3H]PDBu (10 nM) to purified PKCαmeasured in the presence of increasing concentrations of the tested compounds. The data is presented as mean of residual [3H]PDBu binding (% of control) from three parallel samples in a single representative experiment. The raw data of the displacement assays are available in S2 File.

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Provenzani, R., Tarvainen, I., Brandoli, G., Lempinen, A., Artes, S., Turku, A., … Boije af Gennäs, G. (2018). Scaffold hopping from (5-hydroxymethyl) isophthalates to multisubstituted pyrimidines diminishes binding affinity to the C1 domain of protein kinase C. PLoS ONE, 13(4). https://doi.org/10.1371/journal.pone.0195668

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