Fe-Catalyzed Selective Formal Insertion of Diazo Compounds into C(sp)-C(sp3) Bonds of Propargyl Alcohols: Access to Alkyne-Substituted All-Carbon Quaternary Centers.

The construction of all-carbon quaternary centers, especially those containing an alkyne-substituted framework, represents an important challenge in organic synthesis. Here we present a novel Fe-catalyzed selective formal insertion of diazo compounds into C(sp)-C(sp3) bonds of propargyl alcohols under mild conditions that enables the streamlined construction of alkyne-substituted all-carbon quaternary centers. This unique strategy starts with in situ generation of an ester group in the presence of carboxylic acids, followed by insertion of metal-carbene into C(sp)-C(sp3) bonds, which may open up a new reaction mode for exploring metal-carbene insertion into acyclic C-C bonds.

Sulfonyl radical triggered selective iodosulfonylation and bicyclization of 1,6-dienes.

A novel sulfonyl radical triggered selective iodosulfonylation and bicyclization of 1,6-dienes has been described for the first time. High selectivity and efficiency, mild reaction conditions, excellent functional group compatibility, and broad substrate scope are the attractive features of this synthetic protocol, which provides a unique platform for precise radical cyclization.

Radical cyclizations of enynes/dienes with alcohols in water using a green oxidant.

A simple, eco-friendly, and efficient methodology for performing radical cyclizations of enynes/dienes with alcohols in water has been established. This methodology showed ease of scale up, and it was designed to use mild reaction conditions and no catalyst. It was also designed to employ K2S2O8 as a green oxidant and water as the solvent, conditions making this process clean and easy to operate, hence achieving the criteria of green chemistry.

(-)Doxazosin is a necessary component for the hypotensive effect of (±)doxazosin during long-term administration in conscious rats.

AIM: Doxazosin is a racemic mixture of (-)doxazosin and (+)doxazosin that is currently used as an add-on therapy for hypertension. In this study we investigated the contribution of each enantiomer to the hypotensive action of long-term administration of (±)doxazosin in conscious rats. METHODS: Blood pressure of conscious SD rats was measured using a volume pressure recording system. The rats were orally administered (-)doxazosin, (+)doxazosin, or (±)doxazosin (8 mg·kg(-1)·d(-1)) for 12 weeks. Plasma concentrations of the agents were analyzed with HPLC. The effect of the agents on α1-adrenoceptor was examined in isolated rat caudal artery preparations. RESULTS: Treatment of conscious rats with a single dose of (±)doxazosin (8 mg/kg) did not affected DBP and MBP, but significantly decreased SBP by 11.9% 4 h after the administration. Long-term treatment of conscious rats with (±)doxazosin significantly decreased SBP, DBP and MBP with a maximal decrease of SBP by 29.3% 8 h after the last administration. The rank order of the hypotensive actions caused by long-term treatment in conscious rats was (±)doxazosin>(+)doxazosin>>(-)doxazosin. However, the pKB values for inhibiting NA-induced contraction of isolated rat caudal artery were (+)doxazosin (8.995)>(±)doxazosin (8.694)>(-)doxazosin (8.032). The plasma concentrations of (-)doxazosin, (+)doxazosin, and (±)doxazosin were 18.26±3.55, 177.11±20.66, and 113.18±13.21 ng/mL, respectively, 8 h after the last administration of these agents. CONCLUSION: Long-term treatment with (±)doxazosin produces potent hypotensive action in conscious rats that seems to result from synergic interaction of the two enantiomers.

[Anti-tumor activity of folate receptor targeting docetaxel-loaded membrane-modified liposomes].

The anti-tumor activity of folate receptor targeting docetaxel-loaded membrane-modified liposomes (FA-PDCT-L) was investigated in vitro and in vivo. FA-PDCT-L was prepared by organic solvent injection method. Transmission electron microscope, dynamic light scattering and electrophoretic light scattering were employed to study the physicochemical parameters of FA-PDCT-L. The inhibitory effects of docetaxel injection (DCT-I), non-modified DCT liposomes (DCT-L) and FA-PDCT-L on the growth of MCF-7 and A-549 cells at different incubation times were detected by CCK-8 assay; and the hemolytic test was employed in vitro. Tumor mice were randomized into 4 groups: DCT-I, DCT-L, FA-PDCT-L and control group (normal saline), and given drugs at 10 mg x kg(-1) x d(-1) through tail vein. The tumor volume, mice weight, inhibition rate of tumor and life span were measured at the end of experiments. The IC50 of the FA-PDCT-L for MCF-7 and A549 cell lines were significantly lower than that of DCT-I and DCT-L, without hemolysis reaction observed. Compared with control group, the weights of tumor in DCT-I, DCT-L and FA-PDCT-L were decreased, especially for FA-PDCT-L, with inhibitory rates at 79.03 % (P < 0.05). The life span and median survival time of FA-PDCT-L treated mice were significantly higher than that of DCT-I and DCT-L. In conclusion, FA-PDCT-L shows a good anti-tumor activity, indicating that it is potential carriers for DCT in the treatment of tumor.

[Preparation and in vitro properties of folate receptor targeting docetaxel-loaded amphiphilic copolymer-modified liposomes].

A novel amphiphilic copolymer, folate-poly (PEG-cyanoacrylate-co-cholesteryl cyanoacrylate) (FA-PEG-PCHL) was synthesized as liposomal modifying material with folate receptor targeting and long circulating property. FA-PEG-PCHL-modified docetaxel-loaded liposomes (FA-PDCT-L) were prepared by organic solvent injection method, and the system was optimized using central composite design-response surface methodology. The structure of the FA-PEG-PCHL copolymer was confirmed by FT-IR and 1H NMR. Ultrafiltration technique, transmission electron microscope, dynamic light scattering and electrophoretic light scattering, and fluorescence polarization method were used to study the physicochemical parameters of FA-PDCT-L. FA-PDCT-L showed spherical or ellipsoid shape. The mean particle sizes were in the range of 111.6-126.9 nm, zeta potentials were from -6.54 mV to -14.13 mV and the drug encapsulation efficiency achieved 97.8%. The observed values agreed well with model predicted values. The membrane fluidity increased with the increment of the molecular weight of PEG and the decrement of the amount of FA-PEG-PCHL. The in vitro release test showed that the drug could be sustained-released from liposomes without a burst release and with stability for 6 months. After 24 h only 31.1%, 27.2% and 19.5% of encapsulated docetaxel were released for FA-PDCT10000-L, FA-PDCT4000-L and FA-PDCT2000-L, respectively. This work is useful for further research on the application of the synthesized copolymer-modified long circulating liposomes for cancer therapy.

[Preparation and characterization of oxaliplatin-loaded nanostructured lipid carriers].

Oxaliplatin-loaded nanostuctured lipid carriers (OP-NLC) were prepared by ultrasonic emulsification method. And its optimal prescription was selected by orthogonal design. The laser light scattering technique, zeta potential analyzer, TEM, DSC, XRD and HPLC were employed to study the physicochemical parameters of OP-NLC, which displayed in terms of particle size, zeta potential, crystalline, drug loading and encapsulation efficiency. The results showed that OP-NLC had an average diameter of (111 +/- 20) nm, zeta potential of (-27.4 +/- 13.1) mV, encapsulation efficiency of (77.4 +/- 2.5) % and drug content of (0.8 +/- 1.5) mg mL(-1). TEM, DSC and XRD indicated that OP-NLC was spherical and the drug was dispersed as nanoparticles by means of non-crystalline. The in vitro release test showed that the drug could be sustained-released from NLC in buffer solution (pH 4.5) after a burst release in initial phase.

Development of self-microemulsifying drug delivery systems for oral bioavailability enhancement of alpha-Asarone in beagle dogs.

A self-microemulsifying drug delivery system (SMEDDS) for enhancement of oral absorption of a poor water-soluble drug, alpha-Asarone (ARE), is reported. Solubility of ARE was determined in various vehicles. SMEDDS consisted of a mixture of oils, surfactants, and cosurfactants that were emulsified in an aqueous medium under the gentle agitation and digestive motility. Pseudo-ternary phase diagrams were used to identify the efficient self-emulsification regions. The particle size distribution of the resulting microemulsions was determined using a laser scatter particle size analyzer (LSPSA). The optimized SMEDDS formulations containing Ethyl oleate (20%), Tween 80 (60%), and PEG 400 (20%) were tested for in vitro dissolution. The percentage of ARE released from the SMEDDS was significantly higher than that from the conventional tablets. Oral bioavailability of ARE in the SMEDDS via the hard capsules and the conventional tablets was evaluated in fasted beagle dogs. The bioavailability of ARE formulated in SMEDDS showed approximately 4.8-fold higher bioavailability than that in the conventional tablets. The results indicated that SMEDDS is potentially a good drug delivery system for oral delivery of the hydrophobic compound ARE.