Victor Oke scite author profile

Victor Oke

4Publications

34Citation Statements Received

46Citation Statements Given

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The University of Texas MD Anderson Cancer Center

Publications

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Modulation of growth, differentiation and glycoprotein synthesis by β‐ALL‐trans retinoic acid in a multicellular tumor spheroid model for squamous carcinoma of the head and neck

Sacks

Oke

Amos

et al. 1989

Intl Journal of Cancer

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Cell line MDA 886Ln was established from a laryngeal lymph node metastasis. When grown as a multicellular tumor spheroid (MTS), it exhibits squamous differentiation. We studied the effects of beta-all-trans retinoic acid (RA) on the growth, differentiation and glycoprotein content of this MTS model for squamous carcinomas of the head and neck. The growth of MTSs was inhibited in a dose-dependent manner by 10(-6) to 10(-10) M RA. Growth inhibition occurred between 3 and 5 days of RA treatment (10(-6)M). Immunohistochemical and electrophoretic analyses revealed that RA suppressed the morphological markers of squamous differentiation (squames), involucrin expression, and keratin expression. Gly-coprotein expression was examined by metabolic labelling using 3H-glucosamine, in situ labelling of polyacrylamide gels with 125I-labelled wheat-germ agglutinin (WGA), localization of fluorescein isothionate-WGA in frozen sections, and determination of sialyltransferase activity. Treatment using 10(-6) M RA altered glycoprotein expression both biochemically and morphologically, and WGA was shown to bind preferentially to sialic acid residues. The sensitivity of this MTS model to RA treatment and its ability to be analyzed through morphological, immunohistochemical and biochemical techniques suggest that it will prove useful in studying the relationships between growth, differentiation and RA-induced alterations in squamous carcinomas.

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Effects of β‐all‐trans retinoic acid on growth, proliferation, and cell death in a multicellular tumor spheroid model for squamous carcinomas

Sacks

Oke

Vasey

et al. 1990

Journal Cellular Physiology

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The growth of multicellular tumor spheroids, MTSs, from squamous carcinoma line MDA 886Ln was inhibited by beta-all-trans retinoic acid (RA). Inhibition occurred within 3 to 5 days of treatment, and MTS size then remained static for up to 2 weeks. Although their growth stopped, 10-day-treated MTSs incorporated [3H]thymidine into trichloroacetic acid-precipitable material, and the [3H]thymidine labeling index, determined by autoradiography, was equivalent between control and RA-treated MTSs. Bivariate flow cytometric analysis of bromodeoxyuridine-labeled MTSs showed equivalent S phase progression of labeled cells over an 8-hour chase. MTS growth stasis was not related to RA-induced cell cycle effects. Monitoring of MTSs for cell sloughing showed no significant cell shedding that could account for stasis. Quantitation of cell number and DNA content per MTS showed an RA-induced decrease. This was confirmed by histological analysis, which demonstrated the temporal appearance of acellular areas. MTS growth statis is thus related to an RA-induced cell loss in this MTS model for squamous carcinomas.

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Retinoic acid inhibition of a head and neck multicellular tumor spheroid model

et al. 1989

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The effects of retinoic acid (RA) on multicellular tumor spheroids (MTS) derived from a head and neck squamous carcinoma cell line, MDA 886Ln, were studied. Growth of MTSs was shown to be inhibited by 10(-5) to 10(-7) M RA; dose response studies demonstrated that by 10(-10) M RA, MTS growth was inhibited by less than 20%. MTSs treated with RA for 10 days had a decreased labeling index (15% compared with 23% for controls). Histologic studies at 10 days showed both an alteration in tissue-like architecture and an inhibition of squamous differentiation in RA-treated spheroids. Morphologic inhibition of differentiation was confirmed by immunohistochemical staining for involucrin. Histologic sections were also probed with a series of biotinylated lectins to search for RA-induced changes in glycosylation. Changes in staining occurred with two lectins, soybean agglutinin and peanut agglutinin. This study showed that RA induced perturbations in biological processes such as growth and differentiation in a new model system for squamous carcinomas of the head and neck, MDA 886Ln MTS.

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Antiproliferative effects of free and liposome-encapsulated retinoic acid in a squamous carcinoma model: monolayer cells and multicellular tumor spheroids

Sacks

Oke

Mehta

1992

J Cancer Res Clin Oncol

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Antiproliferative effects of free retinoic acid (RA) and liposome-encapsulated RA (RAlp) were compared in a squamous carcinoma system using both monolayer cells and multicellular tumor spheroids (MTS), an in-vivo-like model with three-dimensional histological structure. Initial studies examined the effect of lipid composition on the efficiency of RA encapsulation and on the subsequent toxicity of RAlp to red blood cells. In 5-day growth assays for monolayer cells, RA and RAlp (1 microM-0.1 nM) produced similar growth inhibition. In 6-day growth assays for MTS, RAlp was shown to have increased effectiveness. Liposomal uptake by the squamous carcinoma cells was examined by culturing monolayers and MTS with fluorescence-tagged liposomes and examining them under fluorescence microscopy between days 1 and 6. Phagocytosed liposomes were present, but their low levels suggested that other mechanisms of drug delivery such as adsorption, fusion or direct lipid transfer probably occurred for RAlp. Histological examination of MTS showed that RA and RAlp produced similar alterations. In this squamous carcinoma system, liposomes are effective in delivering retinoic acid and in producing biological effects in monolayer cells and within the three-dimensional structure of MTS.

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Victor Oke

Modulation of growth, differentiation and glycoprotein synthesis by β‐ALL‐trans retinoic acid in a multicellular tumor spheroid model for squamous carcinoma of the head and neck

Effects of β‐all‐trans retinoic acid on growth, proliferation, and cell death in a multicellular tumor spheroid model for squamous carcinomas

Retinoic acid inhibition of a head and neck multicellular tumor spheroid model

Antiproliferative effects of free and liposome-encapsulated retinoic acid in a squamous carcinoma model: monolayer cells and multicellular tumor spheroids

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