Synthesis, biologic activity, and protein binding characteristics of a new vitamin D analog, 22-hydroxyvitamin D3

We synthesized a novel vitamin D analog, 22-hydroxyvitamin D3 9 and tested its biologic activity (and antivitamin properties) in vivo in vitamin D-deficient rats, and in vitro in the chick embryonic duodenum. We examined its ability to bind to the sterol carrier protein, vitamin D binding protein and the chick intestinal cytosol receptor for 1,25-dihydroxyvitamin D3. The new vitamin 9 was synthesized from 3 beta-hydroxy-22,23-dinorcholenic acid 1 in 12 steps. The vitamin 9 displayed no vitamin D agonist activity in the intestine or in bone in vivo and did not block the activity of vitamin D3 or 25-hydroxyvitamin D3. It was a weak vitamin D3 agonist in the chick embryonal duodenum in vitro. It did not antagonize the activity of 1,25-dihydroxyvitamin D3. Vitamin 9 bound to the chick intestinal cytosol receptor with low affinity. 22-Hydroxyvitamin D3 and various vitamin D sterols were bound to vitamin D binding protein in the following order: 25-hydroxyvitamin D3. (24R)-24,25-dihydroxyvitamin D3, and (25S)-25,26-dihydroxyvitamin D3 greater than 22-hydroxyvitamin D3 greater than 11 alpha-hydroxyvitamin D3 greater than 1,25-dihydroxyvitamin D3 greater than vitamin D3. We conclude that the introduction of a hydroxyl group at C-22 in the side chain of the vitamin D3 molecule decreases its biological activity.     

An evaluation of the biologic activity and vitamin D receptor binding affinity of the photoisomers of vitamin D3 and previtamin D3

Skin is in the site of previtamin D3 and vitamin D3 synthesis and their isomerization in response to ultraviolet irradiation. At present, little is known about the function of the photoisomers of previtamin D3 and the vitamin D3 in skin cells. In this study we investigated the antiproliferative activity of the major photoisomers and their metabolites in the cultured human keratinocytes by determining their influence on 3H-thymidine incorporation into DNA. Our results demonstrated at both 10(-8) and 10(-6) M in a dose-dependent manner. Lumisterol, tachysterol3, 5,6-trans-vitamin D3, and 25-hydroxy-5,6-trans-vitamin D3 only induced significant inhibition at 10(-6) M. 25-Hydroxytachysterol3 was approximately 10- to 100-fold more active than tachysterol3. 7-Dehydrocholesterol was not active even at 10(-6) M. The dissociation constants of vitamin D receptor (VDR) for 25-hydroxytachysterol3, 25-hydroxy-5,6-trans-vitamin D3, and 5,6-trans-vitamin D3 were 22, 58, and 560 nM, respectively. The dissociation constants for 7-dehydrocholesterol, tachysterol, and lumisterol were greater than 20 microM. In conclusion, vitamin D3, its photoisomers and the photoisomers of previtamin D3 have antiproliferative activity in cultured human keratinocytes. However, the antiproliferative activity did not correlate with their binding affinity for VDR. The results suggest that some of the photoproducts may be metabolized to their 25-hydroxylated and 1 alpha,25-dihydroxylated counterparts before acting on VDR. Alternatively, a different receptor may recognize these photoproducts or another mechanism may be involved in modulating the antiproliferative activity of the photoisomers examined.     

Synthesis and biological activity of 3 beta-fluorovitamin D3: comparison of the biological activity of 3 beta-fluorovitamin D3 and 3-deoxyvitamin D3

The alteration in the biologic activity of the vitamin D3 molecule resulting from the replacement of a hydrogen atom with a fluorine atom is a subject of fundamental interest. To investigate this problem we synthesized 3 beta-fluorovitamin D3 6 and its hydrogen analog, 3-deoxyvitamin D3 7, and tested the biologic activity of each by in vitro and in vivo methods. Contrary to previous reports which showed that 3 beta-fluorovitamin D3 was as active as vitamin D3 in vivo, we found that the fluoro-analog was less active than vitamin D3. With regard to stimulation of intestinal calcium transport and bone calcium mobilization in the D-deficient hypocalcemic rat, 3 beta-fluorovitamin D3 showed significantly greater biologic activity than its hydrogen analog, 3-deoxyvitamin D3. In the organ-cultured, embryonic chick duodenum, 3 beta-fluorovitamin D3 was approx 1/1000th as active as the native hormone, 1,25-dihydroxyvitamin D3, while 3-deoxyvitamin D3 was inactive even at microM concentrations, in the induction of the vitamin D-dependent, calcium-binding protein. With regard to in vitro activity in displacing radiolabeled 25-hydroxyvitamin D3 from vitamin D binding protein and radiolabelled 1,25-dihydroxyvitamin D3 from a chick intestinal cytosol receptor, 3 beta-fluorovitamin D3 and 3 beta-deoxyvitamin D3 both showed very poor binding efficiencies when compared with vitamin D3. Our results show that the substitution of a fluorine atom for a hydrogen atom at the C-3 position of the vitamin D3 molecule results in a fluorovitamin 6 with significantly more biological activity than its hydrogen analog, 3-deoxyvitamin D3 7.     

Synthesis and biological activity of 1alpha-hydroxyvitamin D3

Hydroboration of cholesta-1,5-diene-3β-ol followed by alkaline-peroxide oxidation resulted in the formation of 1α- and 2α-hydroxy derivatives of cholesterol in nearly equal amounts. 1α-Hydroxycholesterol was then transformed to 1α-hydroxyvitamin D₃, via 1α-hydroxycholest-5,7-diene-3β-ol. 1α-Hydroxyvitamin D₃ was as active as 25-hydroxyvitamin D₃ in the stimulation of intestinal calcium transport and bone mineral mobilization in intact rats, and moreover was able to produce both response in anephric rats similar to 1α,25-dihydroxyvitamin D₃, the active metabolite of vitamin D₃, as reported originally by DeLuca's group.     

Synthesis and biological activity of vitamin D3-sulfate

Vitamin D3-3 beta-sulfate has been synthesized using pyridine sulfur trioxide as the sulfate donor. It has been shown to be pure by high performance liquid chromatography and spectral methods. Unlike previous reports, the product has been identified unambiguously as the 3 beta-sulfate ester of vitamin D3 by its ultraviolet, nuclear magnetic resonance, infrared, and mass spectra. The biological activity of vitamin D3-sulfate was then determined in vitamin D-deficient rats. Vitamin D3-sulfate has less than 5% of the activity of vitamin D3 to mobilize calcium from bone and approximately 1% of the ability of vitamin D3 to stimulate calcium transport, elevate serum phosphorus, or support bone calcification. These results disprove previous claims that vitamin D3-sulfate has potent biological activity, and they further do not support the contention that vitamin D-sulfate represents a potent water-soluble form of vitamin D in milk.     

Synthesis and biologic activity of conformationally constrained analogs of L-363,301.

We report the synthesis, biological activity and conformational analysis of analogs of the cyclic hexapeptide L-363,301, c[Pro6-Phe7-D-Trp8-Lys9-Thr10-Phe11] (numbering as in the native hormone somatostatin-14). The d-Trp in position 8 was replaced with (2R,3S)- and (2R,3R)-beta-MeTrp respectively, with an added methyl group in the beta position of Trp. The objective of our study was to determine the potency and selectivity generated by the added constraint in the beta position of the d-Trp upon binding to human somatostatin receptors hsst1-5. We synthesized the building blocks enantioselectively and incorporated them into the peptides by SPPS. Competition binding assays revealed that both compounds 2 and 3 were selective for hsst2 over hsst5. The (2R,3S) analog 2 was approximately 30 times more potent at hsst2 than the (2R,3R) analog 3. Interestingly, the (2R,3R) compound showed no binding affinity at hsst5.     

Synthesis and biological activity of 1 alpha,23,25,26-tetrahydroxyvitamin D3

The metabolic pathway from 1 alpha,25-dihydroxyvitamin D3 [1 alpha,25-(OH)2D3] to 1 alpha,25-dihydroxyvitamin D3-26,23-lactone includes the formation of 1 alpha,23,25-26-tetrahydroxyvitamin D3 [1 alpha,23,25,26-(OH)4D3]. The aim of the current study was to explore the as yet unknown biological properties of this vitamin D3 sterol. The four diastereoisomers of 1 alpha,23,25,26-(OH)4D3 were chemically synthesized. They were compared to 1 alpha,25-(OH)2D3 in terms of their affinity for the chick intestinal 1 alpha,25-(OH)2D3 receptor and their biologic activity in vivo (stimulation of intestinal calcium absorption and mobilization of calcium from bone in vitamin D-deficient rats). The 1,25-(OH)2D3 receptor binding affinities of 1 alpha,23(R)25(R)26-(OH)4D3, 1 alpha,23(S)25(S)26-(OH)4 D3, 1 alpha,23(S)25(R)26-(OH)4D3, and 1 alpha,23(R)25(S)26-(OH)4D3 were 11, 100, 216, and 443 times weaker than the binding affinity of 1 alpha,25-(OH)2D3, respectively. Compared to 1 alpha,25-(OH)2D3, the relative capacities of the 1 alpha,23,25,26-(OH)4D3 compounds to stimulate intestinal calcium absorption were 1/4 for 1 alpha,23(R)25(R)26-(OH)4D3; 1/19 for 1 alpha,23(S)25(S)26-(OH)4D3; 1/90 for 1 alpha,23(S)25(R)26-(OH)4D3; and 1/136 for 1 alpha,23(R)25(S)26-(OH)4D3. Maximal stimulation of intestinal calcium transport occurred 8 h after administration of vitamin D3 metabolites. Mobilization of calcium from bone was quantitated by serum calcium concentration measurements. The activities of 1 alpha,23(R)25(R)26-(OH)4D3, 1 alpha,23(S)25(S)26-(OH)4D3, 1 alpha,23(S)25(R)26-(OH)4D3, and 1 alpha,23(R)25(S)26-(OH)4D3 to increase serum calcium were estimated to be 4, 13, 43, and 69 times weaker than that of 1 alpha,25-(OH)2D3, respectively. These results illustrate the stereospecificity of the chicken intestine 1 alpha,25-(OH)2D3 receptor for binding of 1 alpha,23,25,26-(OH)4D3 and suggest that the 1 alpha,23,25,26-(OH)4D3 exerts its biological activity in the rat through an interaction with 1,25-(OH)2D3 receptors. In summary, the 1 alpha,23,25,26-(OH)4D3 had a markedly lower biological activity than 1 alpha,25-(OH)2D3.     

Natural metabolites of 1alpha,25-dihydroxyvitamin D(3) retain biologic activity mediated through the vitamin D receptor

1alpha,25-dihydroxyvitamin D(3) (1alpha,25(OH)(2)D(3)), the active metabolite of vitamin D, mediates many of its effects through the intranuclear vitamin D receptor (VDR, NR1I1), that belongs to the large superfamily of nuclear receptors. Vitamin D receptor can directly regulate gene expression by binding to vitamin D response elements (VDREs) located in promoter or enhancer regions of various genes. Although numerous synthetic analogs of 1alpha,25(OH)(2)D(3) have been analysed for VDR binding and transactivation of VDRE-driven gene expression, the biologic activity of many naturally occurring metabolites has not yet been analyzed in detail. We therefore studied the transactivation properties of 1alpha,24R, 25-trihydroxyvitamin D(3) (1alpha,24R,25(OH)(3)D(3)), 1alpha, 25-dihydroxy-3-epi-vitamin D(3) (1alpha,25(OH)(2)-3-epi-D(3)), 1alpha,23S,25-trihydroxyvitamin D(3) (1alpha,23S,25(OH)(3)D(3)), and 1alpha-hydroxy-23-carboxy-24,25,26,27-tetranorvitamin D(3) (1alpha(OH)-24,25,26,27-tetranor-23-COOH-D(3); calcitroic acid) using the human G-361 melanoma cell line. Cells were cotransfected with a VDR expression plasmid and luciferase reporter gene constructs driven by two copies of the VDRE of either the mouse osteopontin promoter or the 1alpha,25(OH)(2)D(3) 24-hydroxylase (CYP24) promoter. Treatment with 1alpha,25(OH)(2)D(3) or the metabolites 1alpha,24R,25(OH)(3)D(3), 1alpha,25(OH)(2)-3-epi-D(3), and 1alpha,23S,25(OH)(3)D(3) resulted in transactivation of both constructs in a time- and dose-dependent manner, and a postitive regulatory effect was observed even for calcitroic acid in the presence of overexpressed VDR. The metabolites that were active in the reporter gene assay also induced expression of CYP24 mRNA in the human keratinocyte cell line HaCaT, although with less potency than the parent hormone. A ligand-binding assay based on nuclear extracts from COS-1 cells overexpressing human VDR demonstrated that the metabolites, although active in the reporter gene assay, were much less effective in displacing [(3)H]-labeled 1alpha,25(OH)(2)D(3) from VDR than the parent hormone. Thus, we report that several natural metabolites of 1alpha,25(OH)(2)D(3) retain significant biologic activity mediated through VDR despite their apparent low affinity for VDR.     

Synthesis of vitamin D5: its biological activity relative to vitamins D3 and D2.

The chemical synthesis, spectral characterization, and biological activity of vitamin D₅ in vitamin D-deficient rats is reported. Vitamin D₅ is about 180-fold less active than vitamin D₃ in calcification of rachitic cartilage and about 100- to 200-fold less active in induction of bone-calcium mobilization. In stimulation of intestinal-calcium transport, vitamin D₅ is about 80-fold less active than vitamin D₃. Vitamins D₂ and D₃ appear to be equiactive in all three responses when low doses are administered.     

Dog secretin: sequence and biologic activity

Secretin was purified from the first 50 cm of proximal intestine of a single dog. The purification sequence included extraction in acid-ethanol, differential precipitation with acetone, Sephadex gel filtration and three successive HPLC steps. Dog secretin has the following sequence: HSDGTFTSELSRLRESARLQRLLQGLV. The underlined amino acid represents a substitution of Glu for Asp at position 15 from the NH2-terminus of pig secretin. Dog secretin is equal in potency to pig secretin in stimulating pancreatic ductal flow in a rat bioassay system.     

Synthesis and antitumor activity of 3'-C-methyl-daunorubicin

Reaction of 1,5-anhydro-4-O-benzoyl-2,3,6-trideoxy-3-C-methyl-3-trifluoro-acetami no-L-lyxo-hex-1-enitol with daunomycinone in the presence of anhydrous toluene-p-sulfonic acid in benzene, followed by removal of the N- and O-protecting groups under mild conditions, gave 3'-C-methyldaunorubicin. The antitumor activity of the new anthracycline glycoside has been evaluated.     

Synthesis and antinematodal activity of 3-n-alkylphenols

Several 3-alkylphenols including 3-undecylphenol, which was isolated from a Sumatran rainforest plant, were synthesized to investigate their antinematodal activity against the phytopathogenic nematodes, Bursapherencus xylophilus. A three-step synthesis involving the treatment of 2-cyclohexen-1-one with the Grignard reagent, oxidation of the resulting 1-alkyl-2-cyclohexen-1-ol and subsequent aromatization of 3-alkyl-2-cyclohexen-1-one successfully afforded such phenols. Among the 3-alkylphenols, 3-nonylphenol showed the highest activity, while 3-decylphenol and 3-undecylphenol also showed high activity.     

Synthesis of 25-hydroxy[26,27-3h]vitamin D3 with high specific activity.

A synthesis of radiochemically pure 25-hydroxy[26,27-³H]vitamin D₃ with a specific activity of 160 Ci/mmol is reported. The structure and biological activity of the radiolabeled compound was verified by comigration on high-pressure liquid chromatography with synthetic 25-hydroxyvitamin D₃ to constant specific activity, and by conversion in vitro to 1α,25-dihydroxy[26,27-³H]vitamin D₃ with the chick kidney 1α-hydroxylase.