Vitamin D<sub>3</sub> Derivatives with Adamantane or Lactone Ring Side Chains are Cell Type-Selective Vitamin D Receptor Modulators

Inaba, Yuka; Yamamoto, Keiko; Yoshimoto, Nobuko; Matsunawa, Manabu; Uno, Shigeyuki; Yamada, Sachiko; Makishima, Makoto

doi:10.1124/mol.106.032318

Cited by 48 publications

(85 citation statements)

References 43 publications

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“…pCMX-FLAG-VDR, pCMX-VP16-VDR, pCMX-GAL4-SRC-1, pC-MX-GAL4-N-CoR, pCMX-GAL4-SMRT, Spp×3-tk-LUC, hCYP3A4-ER6×3-tk-LUC, and MH100 (UAS)×4-tk-LUC were previously reported. 3,6,16) Mutations were introduced into pCMX-FLAG-VDR using a QuikChange Site-Directed Mutagenesis kit (Agilent Technologies, Santa Clara, CA, U.S.A.) and pCMX-FLAG-VDR mutants were sequenced before use to verify DNA sequence fidelity.…”

Section: Methodsmentioning

confidence: 99%

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Hairless Modulates Ligand-Dependent Activation of the Vitamin D Receptor-Retinoid X Receptor Heterodimer

Chuma

Endo-Umeda

Shimba

et al. 2012

Biological & Pharmaceutical Bulletin

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1) VDR acts as an allosteric transcription factor that undergoes a ligand-dependent conformational change in the cofactor binding site and activation function 2 (AF2) domain, structural rearrangements that result in dynamic interaction with the heterodimer partner retinoid X receptor (RXR; NR2B) and exchange of cofactor complexes.2,3) While corepressors bind to the VDR-RXR heterodimer in the absence of ligand, the ligand binding reduces the affinity of corepressors and increases the affinity for coactivators, a structural transition that induces transcription of specific genes. The VDR-RXR heterodimer binds preferentially to a DNA response element that consists of a two hexanucleotide (AGGTCA or a related sequence) direct repeat motif separated by three nucleotides (DR3).4) The DR3 VDRbinding element has been identified in the regulatory regions of many target genes, including cytochrome P450, family 24, subfamily A, polypeptide 1 (CYP24A1), cathelicidin antimicrobial peptide (CAMP), and osteopontin.2,4) An everted repeat of the hexanucleotide motif separated by six nucleotides (ER6) is another VDR-binding element that regulates expression of the human CYP3A4 gene.2) Dynamic and coordinated interactions of VDR with RXR and cofactor complexes are required for the efficient regulation of transcription.3,5) Lithocholic acid (LCA), a secondary bile acid, acts as an additional physiological VDR ligand and interacts with the VDR ligand-binding pocket in a mode distinct from 1,25(OH) 2 D 3 , and alternate contacts are seen particularly with helices 3 and 4/5, components of the AF2 surface. [6][7][8] A statistical coupling analysis has demonstrated that RXR heterodimer allosteric communication is required for effective activation of VDR by LCA but not by 1,25(OH) 2 D 3 . 9) Indeed, LCA induces the interaction of VDR with RXR, steroid receptor coactivator 1 (SRC-1), and silencing mediator of retinoic acid and thyroid hormone receptor (SMRT) in a manner distinct from 1,25(OH) 2 D 3 in cells.3)Although the role of VDR in mediating the biological effects of 1,25(OH) 2 D 3 has been investigated for decades, an understanding of the biology of VDR regulation by LCA is only now emerging.Hairless (HR) is a nuclear protein that functions as a corepressor of nuclear receptors, including thyroid hormone receptor, retinoic acid receptor-related orphan receptors and VDR.10-12) HR interacts with VDR via multiple protein-protein interfaces in the absence of ligand and represses VDR transactivation by 1,25(OH) 2 D 3 and LCA.12,13) Interestingly, LCA but not 1,25(OH) 2 D 3 enhances the interaction, 12) suggesting that LCA induces a conformation of the VDR-RXR heterodimer with enhanced affinity for HR binding. In both mice and humans, mutation of HR results in hair-loss phenotypes similar to VDR mutation, suggesting a functional interaction of HR and VDR in vivo. 14) In contrast to the in vitro interaction, 1,25(OH) 2 D 3 treatment decreases HR binding to VDR in keratinocytes. 15) Although the in vivo role of HR in VDR function remains ...

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Section: Methodsmentioning

confidence: 99%

“…Transfections in HEK293 cells were performed by the calcium phosphate coprecipitation method. 16) Transfection experiments used 15 ng of each expression plasmid in combination with 50 ng of reporter plasmid and 10 ng of pCMX-β-galactosidase in each well of a 96-well plate. Eight hours after transfection, compounds were added.…”

Section: 7)mentioning

confidence: 99%

Hairless Modulates Ligand-Dependent Activation of the Vitamin D Receptor-Retinoid X Receptor Heterodimer

Chuma

Endo-Umeda

Shimba

et al. 2012

Biological & Pharmaceutical Bulletin

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“…Transfections in HEK293 cells were performed by the calcium phosphate coprecipitation assay as described previously (10). Eight hours after transfection, compounds were added.…”

Section: Transfection Assaymentioning

confidence: 99%

“…IR1x3-tk-LUC, hCYP3A4-ER6x3-tk-LUC, Som-LUC, and GAL4-responsive MH100(UAS)x4-tk-LUC reporters were used to evaluate the activities of FXR, PXR, GPBAR1, and GAL4-VDR, respectively (13,17). The ligand binding domain from VDR was inserted into pGEX vector (GE Healthcare, Chalfont St. Giles, Buckinghamshire, UK) to generate pGEX-VDR (10). All plasmids were sequenced before use to verify DNA sequence fidelity.…”

Section: Plasmidsmentioning

confidence: 99%

“…The ligand binding domains of human VDR (GenBank accession number NM_000376) was inserted into the pCMX-GAL4 vector to make pCMX-GAL4-VDR (10). Fragments of human farnesoid X receptor (FXR; GenBank accession number NM_005123), pregnane X receptor (PXR; GenBank accession number NM_022002), and G protein-coupled bile acid receptor 1 (GPBAR1; GenBank accession number NM_170699) were inserted into the pCMX vector to make pCMX-FXR, pCMX-PXR, and pCMXGPBAR1, respectively (13,16).…”

Section: Plasmidsmentioning

confidence: 99%

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Lithocholic acid derivatives act as selective vitamin D receptor modulators without inducing hypercalcemia

Ishizawa

Matsunawa

Adachi

et al. 2008

Journal of Lipid Research

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1a,25-Dihydroxyvitamin D 3 [1,25(OH) 2 D 3 ], a vitamin D receptor (VDR) ligand, regulates calcium homeostasis and also exhibits noncalcemic actions on immunity and cell differentiation. In addition to disorders of bone and calcium metabolism, VDR ligands are potential therapeutic agents in the treatment of immune disorders, microbial infections, and malignancies. Hypercalcemia, the major adverse effect of vitamin D 3 derivatives, limits their clinical application. The secondary bile acid lithocholic acid (LCA) is an additional physiological ligand for VDR, and its synthetic derivative, LCA acetate, is a potent VDR agonist. In this study, we found that an additional derivative, LCA propionate, is a more selective VDR activator than LCA acetate. LCA acetate and LCA propionate induced the expression of the calcium channel transient receptor potential vanilloid type 6 (TRPV6) as effectively as that of 1a,25-dihydroxyvitamin D 3 24-hydroxylase (CYP24A1), whereas 1,25(OH) 2 D 3 was more effective on TRPV6 than on CYP24A1 in intestinal cells. In vivo experiments showed that LCA acetate and LCA propionate effectively induced tissue VDR activation without causing hypercalcemia.These bile acid derivatives have the ability to function as selective VDR modulators. , and regulates calcium and bone homeostasis, immunity, and cellular growth and differentiation (1-3). 1,25(OH) 2 D 3 has been demonstrated to inhibit the proliferation and/or to induce the differentiation of various types of malignant cells, including breast, prostate, and colon cancers, as well as myeloid leukemia cells in vitro (1). The administration of 1,25(OH) 2 D 3 and its analogs has therapeutic effects in mouse models of malignancies such as myeloid leukemia (4). 1,25(OH) 2 D 3 was also demonstrated to exert immunomodulatory and antimicrobial functions (5). VDR activation by 1,25(OH) 2 D 3 induces the cathelicidin antimicrobial peptide (CAMP) and kills Mycobacterium tuberculosis in monocytes (6). Although they have been used successfully in the treatment of bone and skin disorders, adverse effects, especially hypercalcemia, limit the clinical application of vitamin D and its synthetic analogs in the management of diseases other than bone and mineral disorders (5). Combined dosing of 1,25(OH) 2 D 3 with other drugs is one approach to overcome its adverse effects (7,8). The development of synthetic vitamin D analogs that retain VDR transactivation but have low calcemic activity provides another approach (9). With an improved understanding of the mechanisms of VDR signaling, the possibility of identifying VDR ligands with selective action is emerging (10).

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Nuclear Receptor Drug Discovery

Kagechika

Tanatani

2008

Gene Family Targeted Molecular Design

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Vitamin D₃ Derivatives with Adamantane or Lactone Ring Side Chains are Cell Type-Selective Vitamin D Receptor Modulators

Cited by 48 publications

References 43 publications

Hairless Modulates Ligand-Dependent Activation of the Vitamin D Receptor-Retinoid X Receptor Heterodimer

Hairless Modulates Ligand-Dependent Activation of the Vitamin D Receptor-Retinoid X Receptor Heterodimer

Lithocholic acid derivatives act as selective vitamin D receptor modulators without inducing hypercalcemia

Nuclear Receptor Drug Discovery

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Vitamin D3 Derivatives with Adamantane or Lactone Ring Side Chains are Cell Type-Selective Vitamin D Receptor Modulators

Cited by 48 publications

References 43 publications

Hairless Modulates Ligand-Dependent Activation of the Vitamin D Receptor-Retinoid X Receptor Heterodimer

Hairless Modulates Ligand-Dependent Activation of the Vitamin D Receptor-Retinoid X Receptor Heterodimer

Lithocholic acid derivatives act as selective vitamin D receptor modulators without inducing hypercalcemia

Nuclear Receptor Drug Discovery

Contact Info

Product

Resources

About

Vitamin D₃ Derivatives with Adamantane or Lactone Ring Side Chains are Cell Type-Selective Vitamin D Receptor Modulators