Dispersing perylene diimide/SWCNT hybrids: structural insights at the molecular level and fabricating advanced materials.

The unique properties of carbon nanotubes (CNT) are advantageous for emerging applications. Yet, the CNT insolubility hampers their potential. Approaches based on covalent and noncovalent methodologies have been tested to realize stable dispersions of CNTs.

Supramolecular polymer transformation: a kinetic study.

Investigation of supramolecular kinetics is essential for elucidating self-assembly mechanisms. Recently, we reported on a noncovalent system involving a bolaamphiphilic perylene diimide dimer that is kinetically trapped in water but can rearrange into a different, more ordered assembly in water/THF mixtures ( Angew. Chem.

Hydrophobic self-assembly affords robust noncovalent polymer isomers.

In covalent polymerization, a single monomer can result in different polymer structures due to positional, geometric, or stereoisomerism. We demonstrate that strong hydrophobic interactions result in stable noncovalent polymer isomers that are based on the same covalent unit (amphiphilic perylene diimide). These isomers have different structures and electronic/photonic properties, and are stable in water, even upon prolonged heating at 100 °C.

Self-assembly of light-harvesting crystalline nanosheets in aqueous media.

A methodology leading to facile self-assembly of crystalline aromatic arrays in dilute aqueous solutions would enable efficient fabrication and processing of organic photonic and electronic materials in water. In particular, soluble 2D crystalline nanosheets may mimic the properties of photoactive thin films and self-assembled monolayers, covering large areas with ordered nanometer-thick material. We designed such solution-phase arrays using hierarchical self-assembly of amphiphilic perylene diimides in aqueous media.

Control over self-assembly through reversible charging of the aromatic building blocks in photofunctional supramolecular fibers.

Self-assembling systems, whose structure and function can be reversibly controlled in situ are of primary importance for creating multifunctional supramolecular arrays and mimicking the complexity of natural systems. Herein we report on photofunctional fibers self-assembled from perylene diimide cromophores, in which interactions between aromatic monomers can be attenuated through their reduction to anionic species that causes fiber fission. Oxidation with air restores the fibers.

Antimicrobial lipopolypeptides composed of palmitoyl Di- and tricationic peptides: in vitro and in vivo activities, self-assembly to nanostructures, and a plausible mode of action.

Antimicrobial lipopeptides are produced nonribosomally in bacteria and fungi during cultivation. They are composed of a cationic or an anionic peptide covalently bound to a specifically modified aliphatic chain. Most of the peptidic moieties have complex cyclic structures.

Pretreatment prediction of brain tumors' response to radiation therapy using high b-value diffusion-weighted MRI.

Diffusion-weighted magnetic resonance imaging (DWMRI) is sensitive to tissues' biophysical characteristics, including apparent diffusion coefficients (ADCs) and volume fractions of water in different populations. In this work, we evaluate the clinical efficacy of DWMRI and high diffusion-weighted magnetic resonance imaging (HDWMRI), acquired up to b = 4000 sec/mm(2) to amplify sensitivity to water diffusion properties, in pretreatment prediction of brain tumors' response to radiotherapy. Twelve patients with 20 brain lesions were studied.

Early detection of response to radiation therapy in patients with brain malignancies using conventional and high b-value diffusion-weighted magnetic resonance imaging.

Purpose: To study the feasibility of using diffusion-weighted magnetic resonance imaging (DWMRI), which is sensitive to the diffusion of water molecules in tissues, for detection of early tumor response to radiation therapy; and to evaluate the additional information obtained from high DWMRI, which is more sensitive to low-mobility water molecules (such as intracellular or bound water), in increasing the sensitivity to response.

Patients And Methods: Standard MRI and DWMRI were acquired before and at regular intervals after initiating radiation therapy for 10 malignant brain lesions in eight patients.

Results: One week posttherapy, three of six responding lesions showed an increase in the conventional DWMRI parameters.

A prospective evaluation of thallium-201 single photon emission computerized tomography for brain tumor burden.

Purpose: The follow-up of patients with malignant brain tumors after surgery, radiation, and/or chemotherapy has been inadequate for evaluating brain tumor burden using computerized tomography (CT) or magnetic resonance imaging (MRI). Thallium-201 has been shown to concentrate in viable tumor, and Tl-201 single photon emission computerized tomography (SPECT) imaging can identify tumor burden more accurately than CT.

Methods And Materials: Thirty-one patients with glioblastoma and three patients with low grade astrocytoma were studied with Tl-201 SPECT.

Erythrocyte glutathione and tumour response to chemotherapy.

There is much evidence that tumour glutathione (GSH) concentration is an important factor in resistance to cancer chemotherapy. Since measurement of tumour GSH would require an invasive procedure in every patient, we have tried to find out whether GSH concentrations in peripheral-blood erythrocytes are related to the response to chemotherapy and thus whether they reflect those in tumour cells. Erythrocyte GSH concentrations were measured by spectrophotometry in peripheral blood from 28 patients with advanced breast cancer and 40 patients with other tumours before and after treatment with various conventional chemotherapeutic regimens.

[Extraskeletal Ewing's sarcoma].

5 patients diagnosed as having extraskeletal Ewing's sarcoma have been referred to our adult oncology unit since 1980. All were men, ranging in age from 18-57 (mean 32 years). The primary tumor was located on the trunk in 4 and in an extremity in 1.

Mechanism of leucovorin reversal of methotrexate cytotoxicity in human MCF-7 breast cancer cells.

Previous studies have suggested that metabolic inhibition by methotrexate (MTX) is multifactorial and that cytotoxicity can be reversed by the reduced folate leucovorin. In this report we investigated the mechanism of leucovorin rescue in the MCF-7 human breast cancer cell line. Cells were exposed to various concentrations of MTX (0.

Mechanism of thymidylate synthase inhibition by methotrexate in human neoplastic cell lines and normal human myeloid progenitor cells.

We have studied the roles of 5,10-methylenetetrahydrofolate (5,10-methylene-H4PteGlu) depletion and dihydrofolate (H2PteGlu) accumulation in the inhibition of de novo thymidylate synthesis by methotrexate (MTX) in human MCF-7 breast cancer cells. Using both a high pressure liquid chromatography system and a modification of the 5-fluoro-2'-deoxyuridine-5'-monophosphate radioenzymatic binding assay, we determined that the 5,10-methylene-H4PteGlu pool is 50-60% depleted in human MCF-7 breast cancer cells following exposure to 1 micron MTX for up to 21 h. Similar alterations in the 5,10-methylene-H4PteGlu pools were obtained when human promyelocytic HL-60 leukemia cells and normal human myeloid precursor cells were incubated with 1 micron MTX.

Identification and biochemical properties of 10-formyldihydrofolate, a novel folate found in methotrexate-treated cells.

The folate compound 10-formyldihydrofolate (H2folate) has not been found as a component of intracellular folates in normal tissues but has been identified in the cytosol of methotrexate (MTX)-treated MCF-7 breast cancer cells and normal human myeloid precursor cells. Its identity was verified by coelution of this compound with a synthetic marker on high pressure liquid chromatography, its reduction to 10-formyltetrahydrofolate (H4folate) in the presence of dihydrofolate reductase, and its enzymatic deformylation to dihydrofolate in the presence of aminoimidazolecarboxamide ribonucleotide (AICAR) transformylase. Chemically synthesized monoglutamated or pentaglutamated 10-formyl-H2folate was examined for its interaction with three folate-dependent enzymes: AICAR transformylase, glucinamide ribotide (GAR) transformylase, and thymidylatesynthase.

Evidence for direct inhibition of de novo purine synthesis in human MCF-7 breast cells as a principal mode of metabolic inhibition by methotrexate.

We have investigated the role of dihydrofolate (H2PteGlu) accumulation in the inhibition of de novo purine synthesis by methotrexate (MTX) in human MCF-7 breast cancer cells. Previous studies have shown that cytotoxic concentrations of MTX that inhibit dihydrofolate reductase produce only minimal depletion of the reduced folate cofactor, 10-formyltetrahydrofolate, required for purine synthesis. At the same time, de novo purine synthesis is totally inhibited.

Effect of methotrexate on intracellular folate pools in purified myeloid precursor cells from normal human bone marrow.

We investigated the effects of the antifolate methotrexate on intracellular folate pools of human myeloid precursor cells (MPCs). Immature MPCs, representing 3.2% of the original marrow population, were selected from normal human bone marrow by immune rosetting.

Antifolate metabolism and sites of action: implications for the design of new antifolates.

Recently, folate-dependent enzymes in the de novo thymidine and purine biosynthetic pathways have come under scrutiny as potential sites for chemotherapeutic exploitation by antifolates. In this manuscript we report on the progress that has been made in designing inhibitors of these pathways. In addition, a molecular model is proposed for the design of new antifolates directed against thymidylate synthase (TS).