Synthetic isoprenoid photoaffinity labeling of P-glycoprotein specific to multidrug-resistant cells

The synthetic isoprenoid N-solanesyl-N,N'-bis(3,4-dimethoxy-benzyl)ethylenediamine (SDB) is known to reverse drug resistance in human multidrug-resistant KB cells. SDB inhibits the photolabeling of P-glycoprotein with the vinblastine analog N-(pazido-(3-(125)l)salicyl)-N'-beta-aminoethylvindesine. We synthesized photoactive radioactive SDB and used it to photoaffinity label membrane vesicles from human KB cells and their multidrug-resistant subline KB-C2 cells. A 150 to 170 kDa protein in membrane vesicles from KB-C2 cells was specifically labeled by the photoanalog of SDB. The labeled band was not detectable in parenteral drug-sensitive cells. The photolabeled 150 to 170 kDa protein was immunoprecipitated with a monoclonal antibody (C219) specific to P-glycoprotein. P-glycoprotein labeling was inhibited by anticancer agents, vinblastine, vincristine, actinomycin D, and daunomycin, with half-maximal inhibition at 2.0, 2.3, 18, and 23 microM, respectively. Only 33 and 18% of the labeling was inhibited by 100 microM Adriamycin and colchicine, respectively. The labeling was also inhibited by agents that reverse multidrug resistance, such as verapamil, reserpine, cepharanthine, and SDB. The existence of other molecules that specifically bind to 125l-SDB-photoanalog was suggested in both KB and KB-C2 membrane vesicles. The fact that we could identify the synthetic isoprenoid acceptor in membrane vesicles from multidrug-resistant cells confirms that P-glycoprotein plays a role in the multidrug resistance phenotype and provides an explanation for the fact that SDB circumvents multidrug resistance.     

Structure-activity studies on gossypol in tumor cell lines

Gossypol [(2,2'-binaphthalene)-8,8'-dicarboxaldehyde-1,1',6,6',7,7'-hexahydroxy-5,5'-diisopropyl-3,3'-dimethyl] 1a is a naturally occurring compound extracted from the cotton plant and has been extensively studied as an oral male contraceptive. Its favorable toxicity profile, and the more recent demonstration of anti-tumor activity in animals and humans, prompted us to investigate the role of the aldehyde groups in a structure-activity study in cultured tumor cells. Four racemic compounds were evaluated: gossypol 1a, gossypolone 2, the bis Schiff's base of L-phenylalanine methyl ester with gossypol (bis Schiff's base) 1c and apogossypol 1b. The former two compounds both retain the aldehyde functional groups at positions 8 and 8' of the molecule whilst in the latter two compounds the aldehydes are blocked or absent, respectively. In addition, the l- and d-isomers of gossypol 1a, the bis Schiff's base 1c and the half Schiff's base 1d (one aldehyde blocked) were tested. The cell lines studied included melanoma (SK-mel-19), cervix (Sihas), small cell lung (H69) and myelogenous leukemia (K562). Cytotoxicity was measured using the MTT and flow cytometric viability assays. Racemic gossypol 1a and gossypolone 2 induced similar dose-dependent decreases in cell viability in all the cell lines with IC50 values of 23-46 and 28-50 microM, respectively. In contrast, the racemic bis Schiff's base derivative of gossypol 1c and apogossypol 1b showed minimal activity in any cell line up to 50 microM. The l-enantiomer of gossypol 1a was significantly more active than the d-enantiomer (IC50 of 20 versus > 50 microM, respectively). When one aldehyde of either enantiomer was blocked 1d cytoxicity was comparable to the l-enantiomer of gossypol. The data suggest that only one aldehyde group is required for the cytotoxicity of gossypol 1a, irrespective of the stereoconfiguration.     

Melphalan resistance and photoaffinity labelling of P-glycoprotein in multidrug-resistant Chinese hamster ovary cells: reversal of resistance by cyclosporin A and hyperthermia.

The multidrug resistance phenotype is often associated with overexpression of P-glycoprotein, an energy-dependent efflux pump responsible for decreased intracellular accumulation of chemotherapeutic agents. The role of P-glycoprotein in the mechanism of cross-resistance to melphalan in multidrug-resistant Chinese hamster ovary cells (CH(R)C5) was investigated by photoaffinity labelling of P-glycoprotein using [3H]azidopine. We investigated whether the chemosensitiser cyclosporin A and hyperthermia, either used alone or combined, could reverse melphalan resistance and alter transport processes for [14C]melphalan in CH(R)C5 cells. Melphalan inhibited azidopine photolabelling of P-glycoprotein, implicating drug efflux mediated by P-glycoprotein in the mechanism of melphalan resistance in CH(R)C5 cells. Azidopine photolabelling also was inhibited by the chemosensitiser cyclosporin A, which binds to P-glycoprotein. Cyclosporin A alone reversed melphalan resistance in CH(R)C5 cells, but had no effect in drug-sensitive AuxB1 cells. Hyperthermia (40-45 degrees) alone increased melphalan cytotoxicity in both cell lines. When hyperthermia was combined with cyclosporin A, a large increase in melphalan cytotoxicity occurred, but only in CH(R)C5 cells. This effect increased with temperature and exposure time. Sensitisation to melphalan cytotoxicity by heat and cyclosporin A in CH(R)C5 cells appeared to be explained by altered drug transport processes. Lower accumulation of melphalan occurred in CH(R)C5 cells than in drug-sensitive cells. At 37 degrees, cyclosporin A increased drug accumulation in CH(R)C5 cells, but not in AuxB1 cells, by slowing drug efflux from cells. Heat alone increased both melphalan uptake and drug efflux for both cell lines. Our findings suggest that the combination of cyclosporin A and hyperthermia could be very useful in overcoming melphalan resistance by increasing intracellular drug accumulation in multidrug-resistant cells.     

树突状细胞对肿瘤细胞株的直接杀伤活性

目的 对比分析干扰素－γ（Interferon-γ,IFN-γ)或脂多糖（lipoplysaccharide,LPS)刺激后的树突状细胞（dendritic cell,DC)对肿瘤细胞杀伤活性的差异。方法 分离健康供者外周血单核细胞，用粒单细胞集落刺激因子和白介素－4诱导为DC。于培养液中加入LPS或IFN－γ培养12h，作为LPS激活的DC（LPS－DC）及IFN－γ激活的DC（IFN－DC）。用流式细胞仪检测DC表面共刺激分子的改变，以明确LPS或IFN－γ对DC的不同刺激作用；同时，以恶性血液病细胞株HL－60 Jurkat及Daudi为靶细胞，用不同效靶比与DC共同培养18h，采用^51Cr释放试验检测LPS－DC及IFN－DC抗肿瘤活性的差异。结果 ①LPS及IFN－γ可不同程度的上调DC表面CD86、CD80、CD83及CD1a的表达，以LPS刺激组明显。②IFN－γ和LPS可分别增强DC对HL60及Daudi的杀伤活性，在效靶比为20：1及10：1时杀伤率与未加刺激因子对照组（medium-DC)相比差异有显著意义（P＜0．05）。相反，IFN－γ－DC对Daudi、LPS－DC对HL－60无明显杀伤活性，但两者对Jurkat均具杀伤作用。结论 LPS及IFN－γ激活的DC对肿瘤细胞的杀伤活性具有相对肿瘤特异性。     

Analysis of structural features of dihydropyridine analogs needed to reverse multidrug resistance and to inhibit photoaffinity labeling of P-glycoprotein

Synthetic dihydropyridine analogs were screened to determine whether they would reverse multidrug resistance of a multidrug-resistant human KB carcinoma cell line, KB-C1. Among twenty-four dihydropyridine analogs examined, thirteen almost completely overcame drug resistance (group A), nine partially overcame resistance (group B) and two did not reverse resistance (group C). The twenty-two compounds that reversed drug-resistance (groups A and B) were hydrophobic dihydropyridine derivatives. Three compounds that reversed resistance, NK-113, NK-138 and NK-194, increased the accumulation of [3H]vincristine in the resistant KB-C1 cells, but not in the parental KB cells, nor in a revertant cell line, KB-C1-R2. NK-101 (group C), which did not reverse resistance, had no effect on drug accumulation. Enhanced efflux of vincristine from the resistant cells was inhibited completely by NK-194, but NK-194 did not affect vincristine influx. Nine of the twenty-four compounds were screened to determine whether they inhibited photoaffinity labeling of the cell surface protein gp170 (P-glycoprotein) in KB-C1 cells by N-(p-azido-[3-125I]-salicyl)-N'-beta-aminoethylvindesine [( 125I]NASV). All five compounds of group A, NK-138, NK-194, NK-200, NK-203 and NK-220, inhibited the photoaffinity labeling of gp170 at less than 10-100 microM, whereas NK-113 and NK-196 of group B inhibited the labeling at 100-200 microM. By contrast, NK-101 and NK-102 of group C did not inhibit labeling even at 2000 microM. These studies confirm the relationship among reversal of multidrug resistance, decreased efflux of vincristine, and inhibition of [125I]NASV labeling of P-glycoprotein.     

Absence of tumor growth stimulation in a panel of 16 human tumor cell lines by mistletoe extracts in vitro

Extracts of Viscum album (mistletoe) are widely used as complementary cancer therapies in Europe. The mistletoe lectins have been identified as the main active principle of mistletoe extracts. They have been shown to exhibit cytotoxic effects as well as immunomodulatory activities. The latter is exemplified by induction of cytokine secretion and increased activity of natural killer cells. Recent reports, however, indicated possible tumor growth stimulation by mistletoe extracts. Therefore, the three aqueous mistletoe extracts (Iscador M special, Iscador Qu special and Iscador P) were evaluated for antiproliferative and/or stimulatory effects in a panel of 16 human tumor cell lines in vitro using a cellular proliferation assay. The results show no evidence of stimulation of tumor growth by any of the three Iscador preparations, comprising central nervous system, gastric, non-small cell lung, mammary, prostate, renal and uterine cancer cell lines, as well as cell lines from hematological malignancies and melanomas. On the contrary, Iscador preparations containing a high lectin concentration (Iscador M special and Iscador Qu special) showed antitumor activity in the mammary cancer cell line MAXF 401NL at the 15 microg/ml dose level with a more than 70% growth inhibition compared to untreated control cells. In addition, a slight antitumor activity (growth inhibition 30-70%) was found in three tumor cell lines for Iscador M special and in seven tumor cell lines for Iscador Qu special, respectively. Iscador P, which contains no mistletoe lectin I, showed no antiproliferative activity.     

Activity of etoposide (VP-16) and teniposide (VM-26) in exponential and plateau phase human tumor cell cultures.

The effects of etoposide (VP-16) and teniposide (VM-26) have been evaluated in human epidermoid carcinoma cells (A431, ME180 and HEp3) grown as exponential and plateau phase cultures. A significant increase in resistance to both these chemotherapeutic agents was observed in unfed plateau compared with exponential phase cells. The large differences in cell killing could not be explained by cell cycle specific toxicities resulting from variations in the cell cycle distributions. Rather the differences in the treatment efficacies probably reflect the 5- to 15-fold increase in the proportion of quiescent cells measured in the plateau phase cultures. These findings suggest that non-proliferating cells in tumors may be preferentially spared in treatments utilizing VP-16 and VM-26.     

Studies on pharmacokinetic mechanism of phenytoin resistance in refractory epilepsy

P-glycoprotein (P-gp) is a drug efflux pump in many organs, including the intestine and liver. Two single nucleotide polymorphisms (SNPs) of P‐gp gene, 2677G>T and 3435C>T, were reported to influence function and expression of P‐gp and have the controversial effects on drug disposition. Phenytoin is one substrate of P-gp. Persistent low phenytoin levels in plasma and P-gp overexpression in brain in several refractory epilepsy patients were reported. P‐gp polymorphisms may also affect phenytoin efficacy by altering its bioavailability (F). Because two P‐gp SNPs, 2677G>T and 3435C>T, may affect P‐gp expression in tissue, we examined phenytoin disposition in patients of different P-gp haplotypes, G/G2677C/C3435 and T/T2677T/T3435. We found that the mean absolute F of phenytoin in T/T2677T/T3435 subjects (91%) is slightly higher than in G/G2677C/C3435 subjects (82%). There was no difference in the maximum concentration (C_max) and the area under the serum concentration–time curve of phenytoin administered orally between two genotypic groups. However, the time of maximum concentration was higher in T/T2677T/T3435 subjects (10 h) than in G/G2677C/C3435 subjects (6 h). The study ruled out the possibility that genetic polymorphisms of P-gp may affect phenytoin efficacy through the decreased absorption or the increased elimination. P-gp SNPs could affect phenytoin efficacy in refractory epilepsy patients probably because of central nervous system.     

硒酸酯多糖诱导白血病多药耐药细胞凋亡的作用机制

目的:观察硒酸酯多糖(Kappaselenocarrageenan,KSC)对K562ADM耐药细胞的诱导凋亡效应,并探讨其作用机制。方法:应用噻唑蓝(MTT)比色法、WrightGiemsa染色、DNA琼脂糖凝胶电泳和流式细胞术(Flowcytometry,FCM)观察K562ADM细胞凋亡;FCM测定K562ADM细胞Fas、P53和Bcl2蛋白表达水平;RTPCR检测Caspase3mRNA的表达。结果:50～500mg·L-1KSC抑制K562ADM细胞增殖,并诱导K562ADM细胞凋亡,细胞出现呈典型凋亡形态改变,DNA电泳可见DNA梯状条带(DNAladder);FCM分析出现亚G1期细胞群,S期细胞比例增高。Fas蛋白表达上调,Bcl2蛋白表达下调,Caspase3mRNA表达显著增强,但P53蛋白表达无明显改变。结论:KSC通过Fas依赖性Caspase3激活途径诱导K562ADM细胞凋亡。     

大花紫玉盘素诱导肿瘤多药抗药性细胞凋亡及其机制

目的比较研究番荔枝内酯大花紫玉盘素(uvarigrin)诱导多药抗药性KBv200细胞及其亲本KB细胞凋亡及其机制。方法以MTT法进行细胞毒测定；用Annexin V FITC染色及流式细胞仪检测细胞凋亡。活性氧(ROS)测定以DCFH-DA标记，细胞线粒体跨膜电位(ΔΨ_m)测定用DiOC₆标记，均以流式细胞仪检测。Caspase-9激活的测定用Western blotting法。结果大花紫玉盘素对KBv200细胞及其亲本KB细胞的生长均有明显的抑制作用；大花紫玉盘素不仅能介导KB细胞凋亡，而且也能介导KBv200细胞凋亡；大花紫玉盘素作用于KBv200细胞及其亲本KB细胞12，24和48 h，均引起ROS升高以及ΔΨm降低，而且呈时间依赖性。Western blotting方法分析显示Caspase-9被激活。结论大花紫玉盘素可能通过线粒体通路诱导细胞凋亡。     

Reversal of multidrug resistance by 7-O-benzoylpyripyropene A in multidrug-resistant tumor cells

7-O-Benzoylpyripyropene A (7-O-BzP), a semi-synthetic analog of pyripyropene, was investigated for its reversing effect on multidrug-resistant (MDR) tumor cells. 7-O-BzP (6.25 microg/ml) completely reversed resistance against vincristine and adriamycin in vincristine-resistant KB cells (VJ-300) and adriamycin-resistant P388 cells (P388/ADR), respectively. 7-O-BzP alone had no effect on the growth of drug sensitive and drug-resistant cells. 7-O-BzP (6.25 microg/ml) significantly enhanced accumulation of [3H]vincristine in VJ-300 cells and completely inhibited the binding of [3H]azidopine to the P-glycoprotein in VJ-300 cells and P388/ADR cells. The result suggests that 7-O-BzP effectively reverses P-glycoprotein-related MDR by interacting directly with P-glycoprotein in drug resistant VJ-300 and P388/ADR cells.     

Localization and photoaffinity labelling of the levetiracetam binding site in rat brain and certain cell lines

Levetiracetam (2S-(2-oxo-1-pyrrolidinyl)butanamide, KEPPRA, a novel antiepileptic drug, has been shown to bind to a specific binding site located in the brain (Eur. J. Pharmacol. 286 (1995) 137). To identify the protein constituent of the levetiracetam binding site in situ, we synthesized the photoaffinity label [3H]ucb 30889 ((2S)-2-[4-(3-azidophenyl)-2-oxopyrrolidin-1-yl]butanamide), a levetiracetam analog with higher affinity for the levetiracetam binding site. This radioligand was used to map the levetiracetam binding site within the brain and to study its cellular and subcellular distribution. Autoradiography experiments using [3H]ucb 30889 in rat brain revealed a unique distribution profile that did not match that of classical receptors known to be involved in the generation of epileptic seizures. There was a high level of binding in the dentate gyrus, the superior colliculus, several thalamic nuclei, the molecular layer of the cerebellum and to a lesser extent in the cerebral cortex, the striatum and the hypothalamus. The levetiracetam binding site was restricted to neuronal cell types, undifferentiated PC12 cells and was highly enriched in synaptic vesicles. [3H]ucb 30889 was also used in photoaffinity labelling studies and shown to bind covalently to a membrane protein with a molecular weight of approximately 90 kDa.     

Mechanisms underlying resistance to streptozotocin in Mer+ and Mer- human tumor lines

Streptozotocin (STZ) is a monofunctional nitrosourea employed in the treatment of patients with islet cell tumors. To analyze the role of DNA repair mechanisms in causing resistance to STZ, we evaluated the cytotoxicity by this agent in three human tumor lines that differ with respect to their abilities to repair N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) damaged virus (the Mer phenotype). HT-29, A2182, and BE human tumor lines are high, intermediate and low, respectively, with regard to features that define the Mer phenotype. Our results demonstrated that the order of resistance to STZ is HT-29 greater than A2182 greater than BE. The degree of inhibition of DNA synthesis by STZ was in the following order: BE greater than A2182 greater than HT-29. O6-Alkyltransferase activity was increased markedly in HT-29 cells compared to A2182 cells which, in turn, had significantly increased levels compared to the BE line. Other potential factors such as 3-methyladenine DNA glycosylase activity, the induction by STZ of single-stranded DNA breaks, and the kinetics of repair of these breaks do not clearly underlie differences in cytotoxicity among the three tumor lines. However, increased topoisomerase II activity, as well as enhanced sensitivity to agents that interact with topoisomerase II, was present in A2182 cells compared to BE cells. These findings demonstrate that while O6-alkyltransferase contributes to resistance to STZ in some Mer+ tumor lines, other mechanisms may also contribute to resistance to this agent.     

Schedule-dependent cytotoxicity of etoposide (VP-16) and cyclophosphamide in leukemia cell line K-562

In allogeneic bone marrow transplantation (allo-BMT) in patients with leukemia, the combination of VP-16 and cyclophosphamide (CY) is commonly used for the conditioning regimen. In the present study, we demonstrated schedule-dependent cytotoxicity of VP-16 and CY in K-562 cells. K-562 cells were pretreated with low concentrations (2.5 and 5?μg/mL) of 4-hydroperoxycyclophosphamide (40487S), which is a preactivated analog of CY. It was confirmed that these concentrations did not influence cell viability. Cells subsequently exposed to 0.5-100?μg/mL of VP-16 showed reduced the viability compared to that of control cells not treated with 40487S. In contrast, there was no change in the viability of K-562 cells pretreated with low concentrations (0.5 and 1?μg/mL) of VP-16. It was confirmed that these concentrations did not influence cell viability. Viability of subsequently exposed to 1-20?μg/mL was not different from that of control cells not treated with VP-16. VP-16 caused cell cycle arrest at G?/M phase. On the other hand, 40487S arrested the cell cycle at S phase. Thymidine-synchronized cells, VP-16 showed cell cycle specificity for cell killing from early-S to mid-S phase. On the other hand, 40487S showed cell cycle-independent cytotoxicity. Exposure of cells to VP-16 after 40487S induced a greater cytotoxic effect on K-562 cells. The findings may lead to improvements in clinical combination chemotherapy.     

三苯氧胺逆转过表达BCRP的JAR/VP16细胞对VP16的耐药性

目的 探讨三苯氧胺(TAM)对过表达乳腺癌耐药蛋白(BCRP)的JAR/VP16细胞的逆转耐药作用.方法 在人绒癌细胞株JAR和对VP16耐药的JAR/VP16细胞株中以MTT法比较单药VP16组、TAM组及两药联合组的药物毒性,并运用流式细胞术以hochest 33342和PI双染观察两株细胞在加与不加TAM时的胞内荧光值强度.以RT-PCR和Western blot方法在mRNA水平和蛋白水平观察TAM、VP16及两药联用时BCRP表达水平.结果 JAR/VP16细胞株与JAR细胞相比,BCRP的表达量上调;TAM能显著增加VP16的抗肿瘤作用,与VP16单药组相比,联合用药组的细胞抑制率增加(P＜0.05);TAM可下调BCRP的表达.结论 BCRP的过表达可能导致了JAR/VP16细胞对VP16的耐药,而TAM可通过下调BCRP的表达及抑制BCRP的功能,从而逆转这种耐药.     

Formation and disappearance of DNA interstrand cross-links in human colon tumor cell lines with different levels of resistance to chlorozotocin.

Three human colon tumor (HCT) cell lines, designated C, Moser and 116, exhibiting a gradation of resistance to chlorozotocin, a glucose-linked chloroethylnitrosourea (1-, 2.9-, and 5.8-fold respectively) were examined to assess the determinants of drug sensitivity. Although the O6-alkylguanine-DNA transferase content was relatively higher in the most resistant 116 cells than in the sensitive cell line C, its level in Moser cells did not correlate with the intermediate chlorozotocin sensitivity. Glutathione content in these tumor cell lines did not show a parallelism with drug resistance. The ethidium bromide fluorescence assay was used to quantitate the kinetics of DNA interstrand cross-link formation and its removal after drug exposure. The peak levels of DNA interstrand cross-links induced in HCT cells correlated with their resistance to chlorozotocin with cross-link indices of 0.03, 0.10 and 0.20, respectively, for 116, Moser and C cell lines. All three cell lines demonstrated DNA cross-link repair to different extents. While the smaller number of cross-links formed in resistant 116 and Moser cells were eliminated in a rapid phase of repair, the lesions formed at a much greater frequency in C cells remained largely unrepaired. These results draw attention to the role of increased DNA cross-link repair as a mechanism of nitrosourea resistance in the HCT cells studied.     

A cytotoxic ribonuclease reduces the expression level of P-glycoprotein in multidrug-resistant cell lines

We have previously described a cytotoxic human pancreatic-ribonuclease variant, named PE5, which is able to cleave nuclear RNA, inducing the apoptosis of cancer cells. We have investigated whether PE5 could specifically inhibit the accumulation of P-glycoprotein in multidrug-resistant cells, since P-glycoprotein overexpression is one of the most important mechanisms contributing to the multiple drug resistance phenotype. We show that PE5 is able to reduce the amount of P-glycoprotein in two different multidrug-resistant cell lines, NCI/H460-R and NCI/ADR-RES, while glutathione S-transferase-л is not affected. We also show that onconase, an amphibian ribonuclease that is undergoing phase II/III clinical trials as an antitumor drug, does not affect the expression of these proteins. The reduction of P-glycoprotein accumulation, which has been functionally confirmed by flow cytometry analysis, may be caused by the previously reported underphosphorylation of JNK induced by PE5. We also show that PE5 has synergistic cytotoxicity with doxorubicin on the NCI/ADR-RES multidrug-resistant cell line. In conclusion, PE5 is a cytotoxic ribonuclease that cleaves nuclear RNA and decreases the expression of P-glycoprotein, showing anticancer activity in multidrug-resistant cell lines.     

茶多酚对肺癌PG细胞生长的调控研究

目的：探讨茶多酚对人PG细胞生长的影响。方法：采用MTT法体外观察不同浓度茶多酚对PG细胞的杀伤作用;应用激光共聚焦显微镜和流式细胞仪分析,检测用药后PG细胞内Ca^2 浓度,CD44V6表达和细胞增殖周期分布的变化。结果：3个浓度的茶多酚对PG2细胞的有杀伤作用,呈剂量依赖分析。细胞增殖受到明显抑制,使细胞阻滞于G0／G1期,不能进入S期及G2／M期,细胞增殖指数明显下降。细胞内Ca^2 浓度与对照组相比,逐渐上升;CD44V6表达水平则呈逐渐下降。结论：茶多酚对PG细胞的生长具有抑制作用,其作用机制与改变细胞内Ca^2 浓度和CD44V6表达有关。     

家兔前叶皮质苯二氮受体的动力学与光亲和标记

采用放射配基结合分析法及光亲和标记技术研究家兔脑前叶皮质苯二氮受体的动力学特征及其分子基础。[~3H]FNP与突触体膜P_2饱和结合的Hill系数为0.74,Scatchard分析为双曲线型。低温(0℃)条件下的动力学显示表观不均一性,但提高温度至25℃时,结合与解离过程均符合一位点反应模型。P_2膜制备与[~8H]FNP光亲和标记后进行SDS-聚丙烯酰胺凝胶电泳仅见一条放射性区带,其表观分子量为56000±1600道尔顿。实验结果提示家兔前叶皮质中苯二氮受体可能以二种不同亲和力的构象存在。