Mechanism of the palladium-catalyzed hydrothiolation of alkynes to thioethers: a DFT study.

The mechanisms of the palladium-catalyzed hydrothiolation of alkynes with thiols were investigated using density functional theory at the B3LYP/6-31G(d, p) (SDD for Pd) level. Solvent effects on these reactions were explored using the polarizable continuum model (PCM) for the solvent tetrahydrofuran (THF). Markovnikov-type vinyl sulfides or cis-configured anti-Markovnikov-type products were formed by three possible pathways.

Effect of distance between decaying (125)I and DNA on Auger-electron induced double-strand break yield.

Purpose: To determine the possible effects of (125)I-to-DNA distance on the magnitude and mechanism of Auger-electron induced-double-strand break (DSB) production.

Materials And Methods: We have synthesized a series of (125)I-labeled Hoechst (H) derivatives ((125)IE-H, (125)IB-H, (125)I-C(8)-H and (125)I-C(12)-H). While all four molecules share a common DNA minor groove binding bis-benzimidazole motif, they are designed to position (125)I at varying distances from the DNA helix.

Bystander effect in tumor cells produced by Iodine-125 labeled human lymphocytes.

Purpose: To investigate the ability of human lymphocytes labeled with DNA-incorporated (125)I to exert an inhibitory (antiproliferative) bystander effect on co-cultured human colon adenocarcinoma LS174T cells in vitro.

Materials And Methods: Human peripheral blood lymphocytes were stimulated to synthesize DNA in the presence of phytohemagglutinin (PHA) and labeled with 5-[(125)I]iodo-2'-deoxyuridine. Human colon adenocarcinoma LS174T cells were co-cultured with the (125)I-labeled lymphocytes in various ratios for 5 days and the proliferation of the LS174T cells was assessed.

Computational and biological evaluation of quinazolinone prodrug for targeting pancreatic cancer.

Our concept of enzyme-mediated cancer imaging and therapy aims to use radiolabeled compounds to target hydrolases over-expressed on the extracellular surface of solid tumors. A data mining approach identified extracellular sulfatase 1 (SULF1) as an enzyme expressed on the surface of pancreatic cancer cells. We designed, synthesized, and characterized 2-(2'-sulfooxyphenyl)-6-iodo-4-(3H)-quinazolinone (IQ(2-S)) as well as its radioiodinated form ((125) IQ(2-S)) as a prodrug with potential for hydrolysis by SULF1.

Human placental alkaline phosphatase-mediated hydrolysis correlates tightly with the electrostatic contribution from tail group.

Human placental alkaline phosphatase has been identified as a hydrolase that is significantly overexpressed on the surface of various solid tumor cells, and is therefore a suitable prodrug design target for non-invasive cancer imaging and therapy. Structure-based prediction of enzymatic activities is essential for rational prodrug design. We have been probing the catalytic proficiency--(k(cat) /K(M) )/k(w)--of placental alkaline phosphatase toward several widely diverse substrate structures experimentally and correlating these results to in silico predictions that are based on the free energy estimates obtained from docking of each substrate structure with placental alkaline phosphatase.

DNA double-strand breaks induced by decay of (123)I-labeled Hoechst 33342: role of DNA topology.

Purpose: To determine double-strand-break (DSB) yields produced by decay of minor-groove-bound (123)I-labeled Hoechst 33342 ((123)IEH) in supercoiled (SC) and linear (L) forms of pUC19 DNA, to compare strand-break efficiency of (123)IEH with that of (125)IEH, and to examine the role of DNA topology in DSB induction by these Auger electron emitters.

Materials And Methods: Tritium-labeled SC and L pUC19 DNA were incubated with (123)IEH (0-10.9 MBq) at 4 degrees C.

Novel prodrugs for targeting diagnostic and therapeutic radionuclides to solid tumors.

Most cancer therapeutics (chemo, radiation, antibody-based, anti-angiogenic) are at best partially and/or temporarily effective. In general, the causes for failure can be summarized as: (i) poor diffusion and/or nonuniform distribution of drug/prodrug molecules in solid tumors; (ii) high drug concentration and retention in normal tissues (leading to side effects); (iii) requirement for plasma-membrane permeability and/or internalization of drug/prodrug molecules; (iv) low uptake of drug by tumor; (v) lack of retention of drug within tumor (most have gradient-driven reversible binding); and (vi) multidrug resistance. We are developing an innovative technology that aims to surmount these problems by actively concentrating and permanently entrapping radioimaging and radiotherapeutic prodrugs specifically within solid tumors.

DMSO increases radioiodination yield of radiopharmaceuticals.

A high-yield radioiodination method for various types of molecules is described. The approach employs DMSO as precursor solvent, a reaction ratio of 2-5 precursor molecules per iodine atom, 5-10 microg oxidant, and a 10-25 microl reaction volume. The solution is vortexed at room temperature for 1-5 min and progress of the reaction is assessed by HPLC.

Using Hoechst 33342 to target radioactivity to the cell nucleus.

We have explored the use of Hoechst 33342 (H33342) to carry radioactivity to the cell nucleus. H33342 enters cells and targets DNA at adenine-thymine-rich regions of the minor groove. Considerable membrane blebbing and ruffling occur in CHO cells within minutes after its addition to the culture medium in micromolar quantities.

Evaluation of chemical, physical, and biologic properties of tumor-targeting radioiodinated quinazolinone derivative.

Our group is developing a novel technology, enzyme-mediated cancer imaging and therapy (EMCIT), that aims to entrap radioiodinated compounds within solid tumors for noninvasive tumor detection and therapy. In this approach, a water-soluble, radioiodinated prodrug is hydrolyzed in vivo to a highly water-insoluble compound by an enzyme overexpressed extracellularly by tumor cells. We have synthesized and characterized the water-soluble prodrug, 2-(2'-phosphoryloxyphenyl)-6-[(125)I]iodo-4-(3H)-quinazolinone [(125)I]5, which is readily hydrolyzed by alkaline phosphatase, an enzyme expressed by many tumor cell lines, to a water-insoluble drug, 2-(2'-hydroxyphenyl)-6-[(125)I]iodo-4-(3H)-quinazolinone [(125)I]1.

Computational modeling and experimental evaluation of a novel prodrug for targeting the extracellular space of prostate tumors.

We are developing a noninvasive approach for targeting imaging and therapeutic radionuclides to prostate cancer. Our method, Enzyme-Mediated Cancer Imaging and Therapy (EMCIT), aims to use enzyme-dependent, site-specific, in vivo precipitation of a radioactive molecule within the extracellular space of solid tumors. Advanced methods for data mining of the literature, protein databases, and knowledge bases (IT.

In silico design, synthesis, and biological evaluation of radioiodinated quinazolinone derivatives for alkaline phosphatase-mediated cancer diagnosis and therapy.

As part of the development of enzyme-mediated cancer imaging and therapy, a novel technology to entrap water-insoluble radioactive molecules within solid tumors, we show that a water-soluble, radioactive quinazolinone prodrug, ammonium 2-(2'-phosphoryloxyphenyl)-6-[125I]iodo-4-(3H)-quinazolinone (125IQ(2-P)), is hydrolyzed by alkaline phosphatase to a water-insoluble, radiolabeled drug, 2-(2'-hydroxyphenyl)-6-[125I]iodo-4-(3H)-quinazolinone (125IQ(2-OH)). Biodistribution data suggest the existence of two isoforms of the prodrug (IQ(2-P(I)) and IQ(2-P)), and this has been confirmed by their synthesis and characterization. Structural differences of the two isoforms have been examined using in silico molecular modeling techniques and docking methods to describe the interaction/binding between the isoforms and human placental alkaline phosphatase (PLAP), a tumor cell, membrane-associated, hydrolytic enzyme whose structure is known by X-ray crystallographic determination.

Induction of apoptosis in human tumor cells after exposure to Auger electrons: comparison with gamma-ray exposure.

To clarify the contribution of apoptosis to cell death in four human solid tumor cell lines, clonogenic cell survival (indicator of radiosensitivity) and induction of caspase-3 (CASP-3)/caspase-3-like proteases (CASP-3LP) and the production of DNA fragmentation (markers for apoptosis) were studied in RKO, LS174T, MCF7 and TE671 cells exposed to DNA-incorporated Auger-electron-emitting (125)I (5-[(125)I]iodo-2'-deoxyuridine) or gamma-radiation. Clonogenic survival was assessed by colony-forming assay, CASP-3/CASP-3LP induction with a fluorogenic substrate and DNA fragmentation by ligation-mediated polymerase chain reaction. For (125)I, log dose-survival curves had no shoulder [high-linear-energy-transfer (LET)-like] and decreased exponentially at different rates in various cell lines.

Inhibitory and stimulatory bystander effects are differentially induced by Iodine-125 and Iodine-123.

The bystander effect, originating from cells irradiated in vitro, describes responses of surrounding cells not targeted by the radiation. Previously we demonstrated that the subcutaneous injection into nude mice of human adenocarcinoma LS174T cells lethally irradiated by Auger electrons from the decay of DNA-incorporated (125)I inhibits growth of co-injected LS174T cells (inhibitory bystander effect; Proc. Natl.

Determination of active components in Cynanchum chinense R. Br. by capillary electrophoresis.

A method for the determination of 7-O-alpha-l-rhamnopyranosyl-kaempferol-3-O-beta-d-glucopyranoside (GL) and 7-O-alpha-l-rhamnopyranosyl-kaempferol-3-O-alpha-l-rhamnopyranoside (RH) in the traditional Chinese herb Cynanchum chinense R. Br. by capillary electrophoresis has been developed.

5-[123I/125I]iodo-2'-deoxyuridine in metastatic lung cancer: radiopharmaceutical formulation affects targeting.

Unlabelled: This study assesses targeting of lung metastases in mice with the radioiodinated thymidine analog 5-[(123)I/(125)I]iodo-2'-deoxyuridine ((123)I-IUdR/(125)I-IUdR), formulated with varying amounts of tributyltin precursor and injected intravenously.

Methods: Six- to 8-wk-old C57BL/6 mice were injected intravenously with B16F10 melanoma cells. Two weeks later, when lung tumors were established, the animals were injected intravenously with (125)I-IUdR synthesized using 1, 35, 100, 150, 200, or 250 microg 5-tributylstannyl-2'-deoxyuridine (SnUdR) in the presence of an oxidant.

Therapeutic potential of 5-[125I]iodo-2'-deoxyuridine and methotrexate in the treatment of advanced neoplastic meningitis.

Purpose: To assess the therapeutic potential of methotrexate (MTX) and 5-[1251]liodo-2'-deoxyuridine (125IdUrd) administered sequentially in rats bearing advanced (ten-day-old) intrathecal (i.t.) TE671 human rhabdomyosarcoma tumours.

Activation of diverse pathways to apoptosis by (125)IdUrd and gamma-photon exposure.

Purpose: To delineate the mechanisms underlying induction of apoptosis in malignant cells irradiated by DNA-incorporated iodine-125 or gamma-photons.

Materials And Methods: Human tumor cells (RKO, LS174T, TE671, and MCF7) were irradiated by DNA-incorporated 5-[125I]iodo-2'-deoxyuridine (125IdUrd) or by gamma-photons. Clonogenic survival was determined by the colony-forming assay.

Determination of rhein, baicalin and berberine in traditional Chinese medicinal preparations by capillary electrophoresis with two-marker technique.

A CZE method for the identification and determination of three bioactive components, rhein, baicalin and berberine, was developed, with 10 mM borate at pH 9.20 as background electrolyte and direct UV detection at 254 nm. The two-marker (glycyrrhizin acid and cefalexin) technique was used to improve the repeatability of analysis.

Approach to surveillance and consolidation during past 15 years after elimination of schistosomiasis in Shanghai.

Shanghai was one of the most heavily endemic areas of schistosomiasis in the People's Republic of China. A schistosomiasis control program was started in 1955. In 1975, schistosomiasis was under effective control and in 1985, the criteria for schistosomiasis elimination in the whole municipality area were reached.

Synthesis and biologic evaluation of a radioiodinated quinazolinone derivative for enzyme-mediated insolubilization therapy.

We have developed a new strategy that aims to concentrate therapeutic radionuclides within solid tumors. This approach, which we have named EMIT (enzyme-mediated insolubilization therapy), is a method for enzyme-dependent, site-specific, in vivo precipitation of a radioactive molecule (from a water-soluble precursor) within the extracellular space of solid tumors. The prodrug, ammonium 2-(2'-phosphoryloxyphenyl)-6-iodo-4-(3H)-quinazolinone, labeled with iodine-125 ((125)IPD) and its authentic compound labeled with iodine-127 (IPD) have been synthesized, purified, and characterized.