Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
Gene/Protein
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Query: EC:3.6.3.44 (
P-glycoprotein
)
13,344
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A mouse-human chimeric monoclonal antibody (mAb), MH162, against
P-glycoprotein
was previously found to be more effective than an all-mouse mAb (MRK16) in lysis of multidrug-resistant (MDR) tumor cells by blood mononuclear cells. The present study was performed to identify the effector cells responsible for the chimeric mAb-dependent cell-mediated cytotoxicity (ADCC) against MDR cells. The ADCC reaction was assessed by a 6-h 51Cr release assay. Highly purified lymphocytes (greater than 99%), monocytes (greater than 99%) and neutrophils (greater than 96%) were obtained from peripheral blood of the same healthy donors. A comparison of these three effector cell populations showed no difference between MH162 and its all-murine counterpart MRK16 in MDR cell lysis by monocytes or neutrophils. But MH162 was more effective than MRK16 in lymphocyte-mediated lysis of the MDR cells. The lymphocytes responsible for this ADCC had CD16+ Fc receptors. Pretreatment of monocytes with colony-stimulating factors (IL-3, GM-CSF and
M-CSF
) caused significant increase in their MH162-mediated lysis of MDR cells. Another anti-
P-glycoprotein
chimeric mAb (MH171) was also more effective than its murine counterpart MRK17 in lymphocyte-mediated lysis of MDR cells. These findings suggest that mouse-human chimeric mAbs may be useful therapeutically for in vivo destruction of MDR cancer cells by the ADCC reaction.
...
PMID:Effector cell analysis of human multidrug-resistant cell killing by mouse-human chimeric antibody against P-glycoprotein. 135 55
Modulation of the expression of
P-glycoprotein
, a plasma membrane protein associated with multidrug resistance, was examined in drug-sensitive and drug-resistant tumor cells treated with leukoregulin, a M(r) 50,000 cytokine from human lymphocytes that rapidly permeabilizes the plasma membrane of many tumor cells facilitating the uptake of doxorubicin and other tumor-inhibitory antibiotics.
P-glycoprotein
expression was measured flow cytometrically by the binding of C219 or MRK16 monoclonal antibody to multidrug-sensitive human K562 erythroleukemia and 8226/S myeloma cells, compared to multidrug-resistant 8226/DOX40 myeloma cells. Cells were treated for up to 2 h with up to 80 units of leukoregulin/ml or one of a variety of unrelated cytokines including interleukin 1 alpha (IL-1 alpha), IL-1 beta, IL-2, IL-3, IL-4, IL-5, IL-6, colony-stimulating factor,
macrophage colony-stimulating factor
, granulocyte
macrophage colony-stimulating factor
, tumor necrosis factor alpha, gamma-interferon, alpha-interferon, epidermal growth factor, platelet-derived growth factor AA, platelet-derived growth factor BB, insulin-like growth factor I, insulin-like growth factor II, fibroblast growth factor, or transforming growth factor beta. Leukoregulin caused a concentration-dependent decrease in
P-glycoprotein
expression; however,
P-glycoprotein
expression was unaffected by the other cytokines (< 12% decrease in expression). Leukoregulin-induced membrane permeabilization, determined flow cytometrically by intracellular fluorescein efflux, and decreased
P-glycoprotein
expression occurred simultaneously within 15 min in drug-sensitive and -resistant cells. Enhanced doxorubicin uptake, measured flow cytometrically by doxorubicin influx, was also present within 15 min. Leukoregulin enhancement of doxorubicin uptake and increased membrane permeability varied directly with the decrease in
P-glycoprotein
expression. Leukoregulin in combination with doxorubicin enhanced the inhibition of cell proliferation in 8226/DOX40 multidrug-resistant cells over expressing
P-glycoprotein
. In contrast, combined treatment of HL-60/MX2 multidrug-resistant human promyelocytic leukemia cells that do not overexpress
P-glycoprotein
in association with their multidrug resistance resulted in no greater growth inhibition than observed with HL-60/MX2 cells treated with doxorubicin alone. This is the first demonstration that a naturally occurring macromolecule with anticancer activities can modulate the expression of
P-glycoprotein
concomitant with enhanced drug uptake and inhibition of cell proliferation.
...
PMID:Decreased P-glycoprotein expression in multidrug-sensitive and -resistant human myeloma cells induced by the cytokine leukoregulin. 135 22
A human macrophage-colony-stimulating-factor (M-CSF) gene inserted into an expression vector (pRc/CMV-
MCSF
) was transfected into multidrug-resistant (MDR) human ovarian cancer cells (AD10) to induce secretion of human M-CSF into the medium. The M-CSF level in the culture medium of the transfected cells reached 100 ng/ml after 7 days, and the ability of the cells to secrete M-CSF was stable for at least 3 months. Transfection of the M-CSF gene did not result in any change in expression of MDRI (
P-glycoprotein
), proliferation or chemosensitivity of the cells from those of the parent cells. There was also no difference between the transfected and the parent cells in susceptibility to NK cell- or interleukin-2-activated killer-cell-mediated cytotoxicity. Human blood monocytes that had been incubated for 4 days in medium with the culture supernatant of MH-AD10 cells exhibited higher ADCC activity than untreated monocytes against MDRI-positive cancer cells. This effect of the supernatant of AD10 cells was completely abolished by its treatment with a monoclonal anti-M-CSF antibody (MAb). When transfected human MDR cells were injected into nude mice, an inverse correlation was seen between the ability of the cells to produce M-CSF and their tumorigenicity. Thus, gene modification of MDR cancer cells seems hopeful as a therapeutic method for enhancing anti-MDRI-MAb-dependent macrophage-mediated cytotoxicity against human MDR cancer cells.
...
PMID:M-CSF gene transduction in multidrug-resistant human cancer cells to enhance anti-P-glycoprotein antibody-dependent macrophage-mediated cytotoxicity. 810 Aug 9
Lung cancer is a major cause of cancer deaths, most of which can be attributed to distant multiorgan metastases. To examine the cellular and molecular mechanisms of lung cancer metastasis to distant organs, we have established novel models of human lung cancer (small cell and non-small cell lung cancer) metastasis in natural killer cell-depleted severe combined immunodeficient (SCID) mice. We investigated whether local production of the cytokines responsible for regulation of macrophage function at tumor growth sites affects the pattern of lung cancer metastasis in distant organs. Several lung cancer cell lines were genetically engineered to produce human
macrophage colony-stimulating factor
(
M-CSF
) and monocyte chemoattractant protein-1 (MCP-1), and their metastatic potentials were assessed. Interestingly,
M-CSF
gene transduction had an antimetastatic effect for the liver and lymph nodes, but not the kidneys. In contrast, MCP-1 gene-modified lung cancer cells and their parent cells had identical metastatic potentials. These findings indicate a possible role for cytokines and suggest that lung cancer has metastatic heterogeneity. Examining ways of controlling human lung cancer metastases, we investigated the antimetastatic effect of chimeric monoclonal antibodies (MAbs) against
P-glycoprotein
and ganglioside GM2 (MH162 and KM966, respectively). Both MAbs, when given on days 2 and 7, inhibited the development of distant metastases of lung cancer in a dose-dependent fashion. Combined use of anti-
P-glycoprotein
MAb with
M-CSF
or MCP-1 gene transduction caused complete inhibition of metastasis of H69/VP cells. The antimetastatic effect of these MAbs in vivo was mainly due to an antibody-dependent cell-mediated cytotoxicity reaction mediated by mouse macrophages. These findings suggest that the mouse-human chimeric MAb in combination with cytokine gene transduction may be useful for the eradication of lung cancer metastases in humans.
...
PMID:Heterogeneity of multiorgan metastases of human lung cancer cells genetically engineered to produce cytokines and reversal using chimeric monoclonal antibodies in natural killer cell-depleted severe combined immunodeficient mice. 1035 55
Our aim was to determine the antimetastatic potential of anti-
P-glycoprotein
(
P-gp
) antibodies (Abs) against multidrug-resistant (MDR) human small cell lung cancer (SCLC) cells expressing
P-gp
. Human SCLC cells H69 (
P-gp
negative) and its etoposide-resistant variant H69/YP (
P-gp
positive) were used. H69 and H69/VP cells injected i.v. metastasized to the liver, kidneys and systemic lymph nodes of NK cell-depleted severe combined immunodeficient (SCID) mice. H69/VP cells, but not H69 cells, were resistant to treatments with vindesine. Treatment with mouse-human chimeric anti-
P-gp
Ab (MH162) and its mouse counterpart (MRK-16) reduced metastasis of H69/VP cells in various organs and prolonged the survival of tumor-bearing mice, although they were less effective if injected at late times (after 28 days). Treatment with another mouse anti-Pgp Ab, MRK-17, was effective only against liver metastasis. MH162 and MRK-16 efficiently induced Ab-dependent cellular cytotoxicity (ADCC) by peritoneal macrophages against H69/VP cells in vitro, but MRK-17 was less effective, in accordance with their in vivo antimetastatic potential. Gene transfection of
macrophage colony-stimulating factor
(
M-CSF
) into H69/VP cells to augment macrophage-mediated ADCC resulted in inhibition of metastasis to the liver and lymph nodes, but not kidneys. Combined treatment with a low dose of MRK-16 completely cured metastasis of
M-CSF
transfectant, but not of the mock transfectant. Our findings suggest that while anti-
P-gp
Abs had antimetastatic potential against SCLC cells expressing
P-gp
, combined treatment with
M-CSF
gene transduction to augment the therapeutic efficacy of anti-
P-gp
Abs may be beneficial for eradicating metastatic MDR SCLC in humans.
...
PMID:Combined therapy with anti-P-glycoprotein antibody and macrophage colony-stimulating factor gene transduction for multiorgan metastases of multidrug-resistant human small cell lung cancer in NK cell-depleted SCID mice. 1036 Aug 28
Acute myeloid leukaemia (AML) is a heterogenous malignant disease with diverse biological features in which disease progression at the level of CD34+ cells has a major impact on the resistance to chemotherapy and relapse. The AML blast cells in these elderly patients are often characterised by several unfavourable covariates that predict the poor treatment outcome, including high stem cell marker CD34 expression, minimally or undifferentiated features, high
P-glycoprotein
expression, high bcl-2/bax ratio, unfavourable karyotype and more frequent internal tandem duplications (ITDs) and mutations of class III receptor-type tyrosine kinase for key haematopoietic cytokines: Flt-3 (receptor for Flt-ligand), c-kit (receptor for stem cell factor) and fms (receptor for
M-CSF
). Testing the new and more specific molecular-targeted therapeutic approaches in CD34+ AML cells can provide the basis for a more effective combined molecular/chemotherapy regimen and may consequently improve the treatment outcome in elderly AML patients. Therefore, the present study was performed to evaluate whether stem cell factor-antibody (anti-SCF) can enhance the efficacy of the two main chemotherapeutic drugs used in AML therapy: cytarabine and daunorubicin at low doses in human-resistant CD34+ AML cells, in an attempt to identify a novel effective regimen with tolerable side-effects for elderly AML patients. The effect of anti-SCF on each of the two chemotherapeutic drugs-induced apoptosis and necrosis was investigated in KG1a human-resistant CD34+ AML cells expressing
P-glycoprotein
to determine its enhancing activity. Anti-SCF has significantly enhanced the low dose cytarabine- and daunorubicin-induced apoptosis+necrosis in KG1a CD34+ AML cells from 12.0+/-1.7 to 40.9+/-5.9% and from 16.3+/-0.9 to 48.9+/-1.0%, respectively, p<0.01. It has also exerted its significant enhancement activity on the low dose cytarabine- and daunorubicin-induced apoptosis+necrosis in KG1a CD34+ AML cells in the presence of SCF, p<0.05. Anti-SCF has significantly enhanced the low dose cytarabine- and daunorubicin-induced bcl-2 reduction in KG1a CD34+ AML cells from 26.7+/-0.6 to 64.6+/-1.0% and from 59.8+/-3.1 to 80.1+/-7.9%, respectively, p<0.01. The addition of SCF has not altered the low dose cytarabine- and daunorubicin-induced bcl-2 reduction in KG1a CD34+ AML cells (Table 4). Anti-SCF has also significantly enhanced the low dose cytarabine- and daunorubicin-induced bcl-2 reduction in KG1a CD34+ AML cells in the presence of SCF, p<0.05. The unique potent enhancing activity of anti-SCF on low dose chemotherapy-induced apoptosis and necrosis in extremely resistant AML cells suggest a novel promising role for the treatment of elderly AML patients. Further studies are warranted to evaluate a similar enhancing effect for anti-SCF in blast cells from elderly AML patients in primary cultures before its introduction in a pilot clinical study. In conclusion, the combination of anti-SCF and the low dose cytarabine provides a promising solution for the dilemma of therapy in elderly AML patients.
...
PMID:Human stem cell factor-antibody [anti-SCF] enhances chemotherapy cytotoxicity in human CD34+ resistant myeloid leukaemia cells. 1611 92
