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Query: UMLS:C0026764 (
multiple myeloma
)
36,148
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A microtiter plate-based fluorometric assay for functional measurement of 170-kDa P-glycoprotein (Pgp)-mediated transport using fluorescent calcein as a probe is described. The
myeloma
RPMI 8226 cell line and two of its doxorubicin-resistant Pgp-expressing sublines, dox40 (high expression) and dox6 (low expression), were used as models. Nonfluorescent calcein acetoxymethyl ester (calcein/AM) was added to the cells and subsequent accumulation of calcein was measured in a 96-well scanning fluorometer after 30 min. There was an inverse relationship between Pgp expression and calcein/AM accumulation, which increased dose-dependently in the presence of cyclosporin A (CsA) and the nonimmunosuppressive analogue
SDZ PSC 833
(PSC) in the Pgp-expressing cell lines. PSC appeared to restore uptake more effectively than CsA at low concentrations. Calcein accumulation was also increased in Pgp-expressing cells by the addition of the Pgp substrate vincristine and the metabolic inhibitor potassium cyanide, KCN. No effect was observed in parental cell lines. When parental and dox40 cells were mixed, 10% of dox40 cells could reproducibly be detected. The results indicate that microtiter-plate determination of calcein accumulation is a simple and sensitive method for functional determination of Pgp-mediated drug transport. The method may become useful, not only for preclinical screening for novel and improved resistance modifiers, but also for determination of Pgp activity in individual clinical tumor samples.
...
PMID:Microfluorometric evaluation of calcein acetoxymethyl ester as a probe for P-glycoprotein-mediated resistance: effects of cyclosporin A and its nonimmunosuppressive analogue SDZ PSC 833. 791 May 63
Tumor cells from patients with renal or adrenocortical carcinomas were tested in vitro for sensitivity to doxorubicin (Dox) and vincristine (Vcr), as well as for the modulation of this sensitivity by resistance modifiers and the immunohistochemical expression of the multidrug resistance associated P-glycoprotein (Pgp). Normal adrenocortical cells from one patient and Pgp-expressing cells of Dox-resistant
myeloma
RPMI 8226 sublines were included for comparison. The normal adrenocortical cells and cells from one adrenocortical carcinoma showed high Pgp expression, comparable to the most Dox-resistant
myeloma
cell line, whereas the other tumor samples showed variable but lower expression. The normal adrenocortical as well as the adrenocortical and renal tumor cells were highly resistant to Dox and Vcr. Whereas the cytotoxic effect of Dox was considerably increased by verapamil, cyclosporin A and its non-immunosuppressive analogue
SDZ PSC 833
in the Pgp-expressing Dox-resistant sublines, comparatively small effects on the Dox and Vcr sensitivity were observed in the patient samples, irrespective of their Pgp expression. The results indicate that the Dox and Vcr resistance in human adrenocortical and renal carcinomas is mediated by mechanisms other than Pgp and that resistance modulating agents targeting Pgp may be much less efficient in the clinic than in Pgp-expressing cell lines, at least for the tumor types described in the present study.
...
PMID:P-glycoprotein expression and activity of resistance modifying agents in primary cultures of human renal and adrenocortical carcinoma cells. 791 6
SDZ PSC 833
, a non-immunosuppressive cyclosporin analogue reverses multidrug resistance (MDR) in vitro by inhibiting P-glycoprotein (P-gp) mediated drug efflux. We performed a dose escalation study of
SDZ PSC 833
combined with VAD chemotherapy in refractory
multiple myeloma
(MM). Twenty-two MM patients who were refractory to doxorubicin/vincristine/dexamethasone (VADr, n=11) or had failed multiple regimens (n=6) or were melphalan-refractory (MELr, n=5), were treated with one to three cycles of VAD combined with oral
SDZ PSC 833
, which was administered at escalating dosages starting at 5 mg/kg/day to 15 mg/kg/day for 7 days. The median trough and peak blood levels of
SDZ PSC 833
ranged from 461/1134 ng/ml at 5 mg/kg/day to 821/2663 ng/ml at 15 mg/kg, respectively. With addition of
SDZ PSC 833
(5 mg/kg) the mean plasma AUC 0-->96 h of doxorubicin as compared with control patients treated with VAD increased from 779 to 1510 ng/ml/h (P=0.0071), while the doxorubicin clearance was reduced from 47.6 to 27.8 l/h/m2 (P=0.0002). The clearance of doxorubicinol was reduced accordingly. Because of the increased plasma AUC, the dose of doxorubicin and vincristine had to be reduced in 13 patients to 50% (n=1) or 75% (n=12). A further dose-escalation of
SDZ PSC 833
did not lead to a proportional increase of doxorubicin AUC. Toxicity WHO CTC grade 2 or 3 included hypoplasia (18/22), constipation (10/22), hyponatremia (3/22) and infections (6/22). A partial response or stable disease was achieved in eight and six patients, respectively. In 17 evaluable patients the mean percentage of pretreatment bone marrow plasma cells which expressed P-glycoprotein was 40%. The pretreatment in vitro rhodamin retention in CD38++
myeloma
cells was reversible by 2 microM
SDZ PSC 833
with 15-98% in 7/9 tested patients. In 4/5 responding patients analyzed before and after treatment with VAD +
SDZ PSC 833
, a reduction of P-gp + plasma cells was observed. It is concluded, that the blood concentrations of
SDZ PSC 833
attained in MM patients increase with dose after oral administration. It can be safely combined with VAD chemotherapy.
SDZ PSC 833
diminishes the clearance of doxorubicin, leading to an increase of the plasma AUC of doxorubicin. In addition, it is an effective inhibitor of P-gp mediated efflux of doxorubicin in
myeloma
tumor cells in vitro. Therefore, a proportional dose-reduction of doxorubicin and vincristine is warranted. Phase II/III studies in refractory MM are in progress to evaluate the therapeutic efficacy of
SDZ PSC 833
with VAD.
...
PMID:Reversal of multidrug resistance by SDZ PSC 833, combined with VAD (vincristine, doxorubicin, dexamethasone) in refractory multiple myeloma. A phase I study. 889 77
SDZ PSC 833
is a novel compound able to reverse the resistance to chemotherapy of cancer cells with the multidrug resistance (MDR) phenotype by inhibiting the 170 kd P-glyco-protein (P-gp). In vitro studies show that
SDZ PSC 833
directly interacts with, but is not transported by P-gp, although the exact mechanism of action has not yet been defined. In cells with the MDR phenotype, intracellular concentration of various P-gp-transported anticancer drugs is restored to the same level as in sensitive cells by
SDZ PSC 833
concentrations of 0.8 microM to 3.0 microM. In vivo
SDZ PSC 833
was highly active in potentiating the anti-tumour activity of all tested anticancer drugs (ACs) in both sensitive and MDR tumours. Sensitivity of non-MDR tumours was increased by
SDZ PSC 833
through pharmacokinetic interactions, that result in enhanced area-under-the-curve (AUC) of P-gp-transported ACs. However, an increased AC bioavailability is not sufficient to explain the therapeutic benefit of
SDZ PSC 833
co-treatment in MDR tumour-bearing mice: in these animals, no survival increase could be achieved with the AC alone by simply increasing the cytotoxin dosage up to doses that were severely toxic for the non-tumour-bearing mice. In a series of phase I/II studies, the recommended doses of
SDZ PSC 833
were established at: 10 mg/kg/day i.v. as a 24-hour continuous infusion after a 2 mg/kg loading dose as a 2-hour infusion; 20 mg/kg orally divided four times daily in solid tumours or 16 mg/kg orally divided four times daily in
multiple myeloma
. The dose limiting toxicity of
SDZ PSC 833
is ataxia, which appears to be reversible and dose-related. Moreover, a predictable change in pharmacokinetic parameters of concomitantly administered P-gp-transported AC(s) which usually necessitate a 30-60% reduction from the standard dose of the AC in order to maintain the same time-exposure and dose-related toxicity of the cytotoxic drug alone. The results of experiments both in vitro and in vivo suggested that adequate blood levels (i.e. > or = 1.0 microM) of
SDZ PSC 833
must be reached before and maintained during the administration of concomitant AC(s), in order to maximally reverse MDR. At the recommended doses, blood concentrations exceeding 1000 ng/mL (1.0 microM) can be achieved after both i.v. and oral administration. Indeed,
SDZ PSC 833
concentrations that fully reverse MDR in vitro are achievable in vivo, plasma samples from patients treated with
SDZ PSC 833
restored the sensitivity of MDR human sarcoma cells to paclitaxel, etoposide and doxorubicin. Clinical studies completed so far aimed first to determine the dose of both
SDZ PSC 833
and the concomitant AC(s) to be used in ongoing pivotal trials. These studies accrued advanced stage cancer patients, however, tumour responses have been observed in both solid and hematological tumours. The in vitro finding that treatment with
SDZ PSC 833
may suppress the activation of the MDR1 gene and prevent the emergence of resistant cancer cell clones with the MDR phenotype might support the use of this MDR modulator in earlier stages of disease.
...
PMID:[SDZ PSC 833: a novel modulator of MDR]. 944 55
Resistance mechanisms to chemotherapy in
multiple myeloma
include (1) reduced drug concentrations at the target site of action, (2) alterations in the drug target, and (3) inhibition or prevention of drug-induced apoptosis. Recent advances in understanding resistance mechanisms have resulted in the investigation of novel therapies for the treatment of patients with
multiple myeloma
. P-glycoprotein is a drug transport protein that decreases intracellular drug concentrations at the target site.
Valspodar
, a third-generation cyclosporine analog, is an inhibitor of P-glycoprotein that currently is being evaluated to potentially overcome this mechanism of drug resistance. P-glycoprotein inhibitors (also known as chemosensitizers) are being investigated for use in combination with chemotherapeutic agents to enhance the apoptotic effect and prevent resistance at the target site. Other novel approaches involve blocking pathways that result in the expression of antiapoptosis factors. Interleukin-6 is an important growth factor in
myeloma
and has been implicated in drug resistance via an antiapoptosis effect. In vitro blocking of an interleukin-6-dependent pathway with either a JAK inhibitor (tyrphostin, AG490) or STAT3 dominant negative (STAT3-DN) reduced expression of Bcl-xL (an antiapoptosis protein), increased spontaneous apoptosis, and enhanced sensitivity to Fas-mediated apoptosis. In conclusion, several cellular mechanisms reduce the response to drug therapy in
multiple myeloma
. Future treatment approaches for this condition most likely will involve combinations of agents to enhance response or prevent resistance.
...
PMID:Drug resistance in multiple myeloma: approaches to circumvention. 1052 91
We established a rapid and sensitive ex vivo bioassay to detect the multidrug resistance (MDR)-inhibitory activity of
SDZ PSC 833
([3'-keto-Bmt1]-[Val2]-cyclosporin (PSC 833)) in two RPMI 8226 human
myeloma
sublines (parent 8226 and doxorubicin-resistant subline Dox6) in 75% human serum. In vitro sensitivity of the tumor to doxorubicin was determined by 3-h drug exposure growth inhibition assay (MTT assay). PSC 833 in serum restored the IC50 of doxorubicin in the P-glycoprotein (P-gp)-positive resistant subline to the same level as in the sensitive cells at 1 microg/ml, which has been shown to be an achievable concentration in clinical trials. In addition, the cytotoxic effect of doxorubicin was enhanced by PSC 833 in the sera of the patient in whom the blood level was 705.7 ng/ml. However, 10 microg/ml PSC 833 in serum does not cause a complete recovery in the IC90 of doxorubicin in the resistant sublines. This MDR-inhibitory activity was supported by the finding that PSC 833 in serum does not increase accumulation of rhodamine 123 in doxorubicin-resistant cells in an in vitro functional assay. The present study provides evidence that PSC 833 in human serum is effective to modulate P-gp-mediated MDR but insufficient for the reversal of MDR from the clinicopharmacological point of view.
...
PMID:A bioassay for the activity of PSC 833 in human serum for modulation of P-glycoprotein-mediated multidrug resistance. 1103 63
Valspodar
(PSC-833) is a derivative of cyclosporin but devoid of the immunosuppressive and nephrotoxic properties seen in cyclosporin A. It exhibited high affinity binding to Mdr1 P-glycoprotein (P-gp) and demonstrated multidrug resistance-reversing activity superior to cyclosporin A and verapamil both in vitro and in vivo. Preclinical and phase I/II clinical data have indicated that plasma levels of PSC-833 with multidrug resistance-reversing activities are achievable. Potent inhibition of intestinal, hepatobiliary and blood-brain barrier P-gp function has been demonstrated. Since valspodar is also a substrate of cytochrome P450 3A (CYP3A), dual interactions of this compound with P-gp and CYP3A are the basis for the pharmacokinetic interactions seen in preclinical and clinical studies. A new formulation of the drug has recently been developed with better oral bioavailability (60%) and less interindividual variability. The toxicity profiles of valspodar are acceptable and dose-limited by transient and reversible cerebellar ataxia. It has shown multidrug resistance-modulating activities towards acute myeloid leukemia,
multiple myeloma
and ovarian cancer in phase I/II clinical trials. Phase III studies with respect to these three diseases are ongoing.
...
PMID:Technology evaluation: Valspodar, Novartis AG. 1124 78
