Monoclonal antibody to transferrin receptor blocks transferrin binding and inhibits human tumor cell growth in vitro.

Trowbridge, Ian S.; Lopez, Frederick

doi:10.1073/pnas.79.4.1175

Cited by 295 publications

(157 citation statements)

References 47 publications

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“…Malignant lesions rarely occupy more than 20% to 30% of rat liver volume in our experimental conditions (Pascale RM, unpublished results, 1996), and large Tf excess is produced by unaffected liver. 34 Previous work 35 has shown that the prevention of the interaction of Fe 2 -Tf with Tf-R, by anti-Tf-R monoclonal antibodies, results in arrest of in vitro growth of human T leukemia cells. Thus, overexpression of Tf-R with overgrowth, and active internalization of Fe 2 -Tf/ Tf-R complex in HCC, makes Tf-R a possible target for a model system of liver tumor therapy.…”

Section: Discussionmentioning

confidence: 99%

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Transferrin and transferrin receptor gene expression and iron uptake in hepatocellular carcinoma in the rat

et al. 1998

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Section: Discussionmentioning

confidence: 99%

“…[34][35][36][37] When intracellular iron is low, the cells must mobilize storage iron and increase uptake of plasma iron. This latter process is favored by a rise in the availability of Tf-R on the cell surface of fast-growing tissues, such as post-partial hepatectomy liver, nodules, and HCC.…”

Section: Discussionmentioning

confidence: 99%

Transferrin and transferrin receptor gene expression and iron uptake in hepatocellular carcinoma in the rat

et al. 1998

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“…One of the consequences of this interaction is an upregulation in cellsurface membrane IL-2-R (20, 21). IL-2 has also been shown (22)(23)(24) to be an important signal in the upregulation of another receptor, the transferrin receptor, which is thought to be important in cellular growth and is found on rapidly dividing cells. A potential mechanism whereby TGF-/3 might inhibit the growth of T cells is by interfering with the normal expression of either of these receptors.…”

Section: Tgf-t3 Suppresses Il-2-dependent T Cell Proliferation and Pamentioning

confidence: 99%

Production of transforming growth factor beta by human T lymphocytes and its potential role in the regulation of T cell growth.

Kehrl¹,

Wakefield²,

Roberts³

et al. 1986

The Journal of Experimental Medicine

1,482

615

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This study examines the potential role of transforming growth factor beta (TGF-beta) in the regulation of human T lymphocyte proliferation, and proposes that TGF-beta is an important autoregulatory lymphokine that limits T lymphocyte clonal expansion, and that TGF-beta production by T lymphocytes is important in T cell interactions with other cell types. TGF-beta was shown to inhibit IL-2-dependent T cell proliferation. The addition of picograms amounts of TGF-beta to cultures of IL-2-stimulated human T lymphocytes suppressed DNA synthesis by 60-80%. A potential mechanism of this inhibition was found. TGF-beta inhibited IL-2-induced upregulation of the IL-2 and transferrin receptors. Specific high-affinity receptors for TGF-beta were found both on resting and activated T cells. Cellular activation was shown to result in a five- to sixfold increase in the number of TGF-beta receptors on a per cell basis, without a change in the affinity of the receptor. Finally, the observations that activated T cells produce TGF-beta mRNA and that TGF-beta biologic activity is present in supernatants conditioned by activated T cells is strong evidence that T cells themselves are a source of TGF-beta. Resting T cells were found to have low to undetectable levels of TGF-beta mRNA, while PHA activation resulted in a rapid increase in TGF-beta mRNA levels (within 2 h). Both T4 and T8 lymphocytes were found to make mRNA for TGF-beta upon activation. Using both a soft agar assay and a competitive binding assay, TGF-beta biologic activity was found in supernatants conditioned by T cells; T cell activation resulted in a 10-50-fold increase in TGF-beta production. Thus, TGF-beta may be an important antigen-nonspecific regulator of human T cell proliferation, and important in T cell interaction with other cell types whose cellular functions are modulated by TGF-beta.

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“…A number of claims (Kirch & Hammerling, 1981;Bernstein et al, 1980;Scheinberg & Strand 1982;Miller & Levy, 1981;Ritz et al, 1980;Trowbridge & Lopez 1982;Herlyn & Koprowski, 1981), of therapeutic benefit from the use of MAb in cancer therapy have been reported recently in the literature. Partial successes in tumour systems other than that used here could be attributed to different Ig isotypes, acting through an antibody-dependent cellular cytotoxicity (ADCC) rather than complement-mediated lysis.…”

Section: Discussionmentioning

confidence: 99%

“…Although tumourspecific antigens in human tumours (Metzgar et al, 1981;Iwaki et al, 1982;Ball et al, 1982) have not yet been definitely demonstrated, monoclonal antibodies (MAb) highly specific to TAA (Gunn et al, 1981) or to tissue and differentiation antigens (Kirch & Hammerling, 1981) might provide optimal tools to study the anti-tumour efficacy of passive serotherapy (Kirch & Hammerling, 1981;Bernstein et al, 1980;Scheinberg & Strand 1982;Ritz et al, 1981;Trowbridge & Lopez, 1982;Sears et al, 1982).…”

mentioning

confidence: 99%

Serotherapy of L1210 murine leukaemia—reasons for ineffectiveness of in vivo treatment by L.1 monoclonal antibody

Testorelli¹,

Canti²,

Franco³

et al. 1983

Br J Cancer

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Summary A monoclonal antibody (L.1), reacting in vitro specifically with L1210 leukaemia cells in a complement-dependent cyctotoxicity assay (CDC), has been exploited for serotherapy studies. Different regimens of L.1 treatment of CD2F1 mice bearing the semi-syngeneic L1210 leukaemia did not prolong the life span of tumor-bearing animals. Moreover, the administration of L.1 did not enhance the antitumour effects of cyclophosphamide. Studies of in vivo localization showed that L.1 was able to bind specifically to L1210 leukaemic cells, although 30-40% of the cells remained negative. The presence of L.1 in mouse blood was demonstrated up to 15 days after the inoculation. On the other hand, in vivo administration of L.1 was probably accompanied by loss of the cytotoxic activity, perhaps through a mechanism of complement inactivation, since the presence of undiluted normal mouse serum in a CDC assay inhibited the cytotoxic activity of L.1. Moreover, serum from L.1-treated mice did not display any cytotoxic activity, although the presence of the antibody could be demonstrated by indirect immunofluorescence.Shedding of the antigen defined by L.1 was probably not responsible for the failure of the serotherapy, since the L. 1 neutralizing antigen could be found in body fluids only long after the start of therapy.

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Monoclonal antibody to transferrin receptor blocks transferrin binding and inhibits human tumor cell growth in vitro.

Cited by 295 publications

References 47 publications

Transferrin and transferrin receptor gene expression and iron uptake in hepatocellular carcinoma in the rat

Transferrin and transferrin receptor gene expression and iron uptake in hepatocellular carcinoma in the rat

Production of transforming growth factor beta by human T lymphocytes and its potential role in the regulation of T cell growth.

Serotherapy of L1210 murine leukaemia—reasons for ineffectiveness of in vivo treatment by L.1 monoclonal antibody

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