The concentration of bleomycin labeled with Co-57 in primary and metastatic tumors

The concentration over time of bleomycin labeled with Co-57 was measured in 39 primary and metastatic tumor sites in 16 patients using a newly developed and validated single photon emission computed tomography (SPECT) method. There were nine primary tumors, 15 metastatic tumors, and five multifocal lymphomas. Co-bleomycin concentrations also were measured in primary and metastatic B-16 melanoma tumors in mice. In humans, metastases to lymph nodes (1.58 +/- 0.51 %ID/ml X minutes) showed significantly higher (P less than 0.01) tumor cumulative concentrations of Co-bleomycin than metastases to liver, bone, lung, and brain (0.76 +/- 0.20 %ID/ml X minutes). The cumulative concentrations of Co-bleomycin in human lymphomas (1.1 +/- 0.25 %ID/ml X minutes) also were significantly higher (P less than 0.01) than the concentrations in human metastases other than lymph nodes. The cumulative concentration in cerebral metastases (0.65 +/- 0.18 %ID/ml X minutes) was significantly lower (P less than 0.05) than in noncerebral metastases (1.22 +/- 0.53 %ID/ml X minutes). Primary tumors in humans showed higher concentrations of Co-bleomycin than metastases, except for lymph nodes. In contrast with humans, murine metastases showed higher concentrations of Co-bleomycin (6.20 +/- 2.65 %ID/g) than primary tumors (2.94 +/- 0.90 %ID/g) (P less than 0.001). The concentrations of Co-bleomycin in murine tumors that were affected by bleomycin were about three orders of magnitude higher than in human tumors. The results of this in vivo study document the differences in drug delivery of Co-57-labeled bleomycin to human primary and metastatic tumors and show differences in drug delivery between human and murine tumors.     

Effect of specific antibody pretreatment on liver uptake of 111In-labeled anticarcinoembryonic antigen monoclonal antibody in nude mice bearing human colon cancer xenografts

Administration of a large dose (0.2 mg) of unlabeled specific anticarcinoembryonic antigen (anti-CEA) monoclonal antibody (MAB) to nude mice bearing LS174T human colon cancer xenografts significantly decreased normal liver uptake of 111In-labeled anti-CEA MAB (Indacea). Mice bearing tumors of approximately 1 g showed liver accumulation of indium-111 at 48 h following injection of 2 micrograms/10 microCi Indacea of 33.8 +/- 1.5% injected dose per gram (%ID/g) (N = 25). Treatment with 0.2 mg unlabeled anti-CEA MAB reduced this to 8.9 +/- 0.5% ID/g (N = 22; P less than 0.001). The dose of pretreatment was found to be critical. Increasing the amount of unlabeled MAB to 2.0 mg did not significantly improve the liver level of indium-111, but did compromise the tumor uptake of Indacea (15.9 +/- 1.3 versus 12.4 +/- 0.4% ID/g; P less than 0.05). Lowering the dose of pretreatment 10-fold resulted in increased (P less than 0.001) liver uptake of the label (26.5 +/- 2.8% ID/g). The unlabeled anti-CEA MAB treatment given as a single dose or fractionated over several days gave the same results. The decrease in liver uptake was the same for i.v. administration of the unlabeled MAB given 1 week prior to Indacea injection or mixed together with Indacea. With i.p. administration, simultaneous injection of the unlabeled MAB with Indacea was not as effective as pretreatment (20 min to 7 days) in decreasing the liver uptake of 111In (P less than 0.05). Epitope specificity and affinity were shown to be important considerations in the choice of MAB combinations used for pretreatment and imaging. Pretreatment with nonspecific MAB was ineffective in decreasing liver uptake of Indacea.     

Imaging of human tumor xenografts with an indium-111-labeled anti-epidermal growth factor receptor monoclonal antibody

The mouse monoclonal antibody (mAb) 225 IgG1 against the epidermal growth factor (EGF) receptor has been investigated for its capacity to localize in human tumor xenografts. The EGF receptor is the product of the c-erb-B proto-oncogene (also known as EGFR). Elevated expression of EGF receptors has been demonstrated in many human tumors and tumor cell lines. We studied A431 human vulvar squamous cell carcinoma cells, with 2 X 10(6) receptors per cell; MDA-MB-468 (MDA 468) human breast adenocarcinoma cells, with 3 X 10(5) receptors per cell; and MCF-7 human breast adenocarcinoma cells, with 5 X 10(3) receptors per cell. The 111In-labeled pentetic acid (DTPA), derivative of mAb 225 (111In-DTPA-225) was injected intraperitoneally into nude mice bearing subcutaneous tumor xenografts. We measured uptake by quantifying radioactivity in tumor and normal tissues and by obtaining gamma camera images. Uptake in A431 xenografts was 28% +/- 2.4% of the injected dose per gram of tumor on day 3 and 12.4% +/- 3.0% on day 7. Distribution ratios comparing uptake in the tumor with that in normal tissues were consistently greater than 4. In contrast, there was far less uptake of the control mAb KS1/4S-1 labeled with 111In. This conjugate, 111In-DTPA-KS1/4S-1, has an IgG1 isotype but does not bind to human or murine cells. Imaging of the tumor with mAb 225 was excellent, especially on days 3-7. MDA 468 xenografts exhibited reduced localization of mAb 225 in the tumor. For MCF-7 xenografts, the tumor uptake of mAb 225 after 7 days was only 0.70% +/- 0.10% of the injected dose per gram of tumor, which was comparable to the uptake of the KS1/4S-1 control mAb. The ratio of the concentration of radioactivity in the tumor to that in normal tissue (distribution ratio) showed poor selectivity of uptake, and imaging was not obtained. These observations suggest that labeled mAb can target the product of a proto-oncogene, the EGF receptor, when it is expressed at high levels in human tumor xenografts.     

Tumor and liver drug uptake following hepatic artery and portal vein infusion

Anatomic dye injection studies of the blood supply of colorectal hepatic metastases suggest that tumors are supplied predominantly by the hepatic artery. Using 13N amino acids with dynamic gamma camera imaging in patients with colorectal hepatic metastases, it has been shown that hepatic artery infusion results in a significantly greater nutrient delivery to tumor compared with portal vein infusion. However, direct measurements of drug levels in tumor following hepatic artery and portal vein infusion in humans have not previously been reported. Patients with metastatic colorectal cancer confined to the liver received fluorodeoxyuridine (FUdR) through the hepatic artery or through the portal vein. All patients had previously failed systemic chemotherapy. Five patients with hepatic artery catheters were matched (by age, serum lactic dehydrogenase levels, percent hepatic replacement, and tumor size) with five patients with portal vein catheters. At operation, 3H-FUdR (1 microCi/kg) and 99mTc-macroaggregated albumin (MAA) (6 mCi) were injected into the hepatic artery or portal vein. Liver and tumor biopsies were obtained two and five minutes later. 3H and 99mTc were measured per gram tissue by scintillation and gamma counting. The mean liver levels following hepatic artery infusion (23.9 +/- 11.4 nmol/g) and portal vein infusion (18.4 +/- 14.5 nmol/g) did not differ. However, the mean tumor FUdR level following hepatic artery infusion was 12.4 +/- 12.2 nmol/g, compared with a mean tumor FUdR level following portal vein infusion of 0.8 +/- 0.7 nmol/g (P less than .01). This low level of tumor drug uptake after portal vein infusion of FUdR predicts minimal tumor response to treatment via this route. Thus, regional chemotherapy for established colorectal hepatic metastases should be administered through the hepatic artery.     

Cetuximab: preclinical evaluation of a monoclonal antibody targeting EGFR for radioimmunodiagnostic and radioimmunotherapeutic applications

The monoclonal antibody, cetuximab, binds to epidermal growth-factor receptor and thus provides an opportunity to create both imaging and therapies that target this receptor. The potential of cetuximab as a radioimmunoconjugate, using the acyclic bifunctional chelator, CHX-A"-DTPA, was investigated. The pharmacokinetic behavior in the blood was determined in mice with and without tumors. Tumor targeting and scintigraphic imaging were evaluated in mice bearing xenografts of LS-174T (colorectal), SHAW (pancreatic), SKOV3 (ovarian), DU145 (prostate), and HT-29 (colorectal). Excellent tumor targeting was observed in each of the models with peak tumor uptakes of 59.8 +/- 18.1, 22.5 +/- 4.7, 33.3 +/- 5.7, 18.2 +/- 7.8, and 41.7 +/- 10.8 injected dose per gram (%ID/g) at 48-72 hours, respectively. In contrast, the highest tumor %ID/g obtained in mice bearing melanoma (A375) xenografts was 6.3 +/- 1.1 at 72 hours. The biodistribution of (111)In-cetuximab was also evaluated in nontumor-bearing mice. The highest %ID/g was observed in the liver (9.3 +/- 1.3 at 24 hours) and the salivary glands (8.1 +/- 2.8 at 72 hours). Scintigraphy showed excellent tumor targeting at 24 hours. Blood pool was evident, as expected, but cleared over time. At 168 hours, the tumor was clearly discernible with negligible background.     

Biodistribution of indium-111-labeled OC 125 monoclonal antibody after intraperitoneal injection in nude mice intraperitoneally grafted with ovarian carcinoma

The purpose of this work was to study the biodistribution of 111In-labeled OC 125 monoclonal antibody (MAb) with known affinity for ovarian carcinomas in a nude mouse model grafted i.p. with a human ovarian cancer (NIH:OVCAR-3). Tumor uptake 24 h after i.p. injection was higher with intact 111In-labeled OC 125 MAb (28 +/- 7.44%ID/g) than with 111In-nonspecific immunoglobulin (6.86 +/- 1.35%ID/g). The kinetics of tumor uptake also differed, showing a plateau followed by a drop at Day 7 with 111In-OC 125 MAb and a decrease beginning at 24 h with 111In-nonspecific immunoglobulin. Tumor-to-normal tissue ratios ranged between 29.91 +/- 11.85 and 0.68 +/- 0.15 with 111In-OC 125 MAb and between 4.50 +/- 1.06 and 0.53 +/- 0.04 with 111In-nonspecific immunoglobulin according to the normal tissues and the time points considered. Tumor uptake 2 h after injection was the same for F(ab')2 fragments as for intact MAb, whereas maximum uptake at 24 h (18.76 +/- 4.62%ID/g) was lower and was followed by a decrease at Day 4. Tumor-to-normal tissue ratios were in the same range, except for the tumor to blood ratio which was higher and the tumor to kidney ratio which was lower at 24 and 96 h. Maximum tumor uptake was higher after i.p. (30.77 +/- 4.76%ID/g) than i.v. (14.59 +/- 2.70%ID/g) injection. Instead of attaining the plateau noted after i.p. injection, tumor uptake after i.v. injection remained low at 2 h (2.11 +/- 1.66%ID/g), reaching its peak only after 96 h. 131I-OC 125 injected i.p., which reached maximum tumor uptake at 2 h (13.53 +/- 4.25%ID/g), showed tumor-to-tissue ratios ranging between 15.98 +/- 2.63 and 0.96 +/- 0.86, i.e., not very different from those with 111In. After i.p. injection of a radiolabeled colloid solution, maximum tumor uptake was reached at 96 h (20.22 +/- 5.35%ID/g), but with very high nonspecific uptake in liver (31.06 +/- 6.22%ID/g) and spleen (55.23 +/- 14.11%ID/g). These results indicate high, selective tumor uptake of 111In-OC 125 after i.p. injection and demonstrate the feasibility of i.p. radioimmunotherapy of ovarian carcinomas.     

18F-FLT摄取与肺癌细胞增殖的相关性

背景与目的:近年来,3′-脱氧-3′-18F-氟代胸苷(3′-deoxy-3′-18F-fluoro-thymidine,18F-FLT)被认为是反映肿瘤细胞增殖的新的PET(positronemissiontomography)示踪剂。本实验旨在研究18F-FLT在荷肺癌小鼠的生物分布和PET显像,并探讨18F-FLT摄取与肺癌细胞增殖的相关性。方法:48只荷肺腺癌T739小鼠根据示踪剂不同被随机分为18F-FLT组和18F-氟代脱氧葡萄糖(2-18F-fluoro-2-deoxy-D-glucose,18F-FDG)组两组,各组再分为3组(每组8只):(A)对照组;(B)治疗后1天组;(C)治疗后2天组。治疗组采用顺铂进行治疗。所有小鼠经尾静脉注入18F-FLT或18F-FDG,注药后60min用井型探测仪测量小鼠18F-FLT和18F-FDG的生物分布,并行PET显像。肿瘤增殖判定采用免疫组化测定增殖细胞核抗原(proliferatingcellnuclearantigen,PCNA)。结果:在两组对照组中,两种示踪剂的肿瘤PET显像均很清晰。生物分布研究显示肿瘤均有大量放射性摄取,肿瘤在血液、肌肉和肺的T/NT比值均>2.0。18F-FLT组顺铂治疗后肿瘤PCNA阳性率明显减低[A组(90.3±3.9)%ID/g,B组(65.5±9.2)%ID/g,C组(47.7±7.2)%ID/g],18F-FDG组同样明显减低[A组(91.2±3.5)%ID/g,B组(67.8±8.2)%ID/g,C组(45.9±9.1)%ID/g]。治疗后肿瘤18F-FLT摄取快速降低[A组(1.25±0.19)%ID/g,B组(0.82±0.19)%ID/g,C组(0.37±0.17)%ID/g],较18F-FDG摄取变化明显[A组(8.83±1.73)%ID/g,B组(7.88±1.78)%ID/g,C组(7.45±1.67)%ID/g]。PET显像证实B组和C组较A组肿瘤部位18F-FLT放射性浓聚减低。PCNA阳性率与肿瘤18F-FLT摄取呈显著相关性(r=0.930,P<0.001),而与18F-FDG摄取无相关性(r=-0.136,P=0.538)。结论:肺恶性肿瘤组织中18F-FLT摄取高于正常组织,通过PET能清楚显示肺恶性肿瘤;肿瘤18F-FLT摄取与PCNA阳性率的相关性较18F-FDG显著。18F-FLT是一种可反映肺癌细胞增殖的PET示踪剂。     

Improved targeting of pancreatic cancer: experimental studies of a new bispecific antibody, pretargeting enhancement system for immunoscintigraphy.

PURPOSE: The early detection and diagnosis of pancreatic cancer remains a major clinical challenge in which imaging procedures have a central role. The purpose of this study was to evaluate a pretargeting method with a bispecific PAM4 (bsPAM4; anti-MUC1) antibody for radioimmunoscintigraphy of experimental human pancreatic cancer. EXPERIMENTAL DESIGN: A bispecific F(ab')(2) antibody was generated from chimeric PAM4 Fab' and murine 734 (anti-indium-diethylenetriaminepentaacetic acid) Fab' fragments and then used in conjunction with 2 peptide haptens ((111)In-IMP-156 and (99m)Tc-IMP-192). Biodistribution studies and radioimmunoscintigraphic imaging properties of the radiolabeled bsPAM4, and pretargeted, radiolabeled peptides were examined in the CaPan1 human pancreatic tumor grown as s.c. xenografts in athymic nude mice. Tumor uptake and tumor:nontumor ratios were compared with a nontargeting irrelevant anti-CD20, bispecific rituximab, radiolabeled peptides alone, and with directly labeled PAM4. RESULTS: Biodistribution results indicated significantly greater tumor uptake of radiolabeled peptides at 3 h after injection when pretargeting was performed with bsPAM4 as compared with the bispecific rituximab [20.2 +/- 5.5 percentage of injected dose per gram of tissue (%ID/g) versus 0.9 +/- 0.1%ID/g, respectively, for (111)In-IMP-156, and 16.8 +/- 4.8%ID/g versus 1.1 +/- 0.2%ID/g, respectively, for (99m)Tc-IMP-192]. Similar results were obtained at the 24-h time point. Tumor:nontumor ratios were >30 for all of the tissues except the kidneys, where a ratio of 7.8 +/- 2.8 was observed. By immunoscintigraphy, tumors could be visualized as early as 30 min after injection of the radiolabeled peptide. CONCLUSIONS: These studies demonstrate the feasibility of using the pretargeted, bispecific antibody technology for nuclear imaging of pancreatic cancer. The advantage of pretargeted bsPAM4 antibody as an imaging platform is the high specificity for pancreatic cancer as compared with the physicochemical parameters identified by current imaging technologies.     

Enhanced delivery of a monoclonal antibody F(ab')2 fragment to subcutaneous human glioma xenografts using local hyperthermia

The purpose of this study was to investigate the effects of tumor-localized hyperthermia at 42 degrees C on the tissue distribution of radioiodinated monoclonal antibody F(ab')2 fragments. Paired-label biodistribution measurements were performed in athymic mice bearing D-54 MG human glioma xenografts on one leg. Mice received both the 131I-labeled F(ab')2 fragment of Mel-14, reactive with human gliomas and melanomas, and nonspecific 125I-labeled RPC 5 F(ab')2. Tumor-bearing legs were placed in a 42 degrees C water bath or a 37 degrees C water bath (control) for 2 or 4 h. In mice sacrificed immediately after 2 h of heating, no hyperthermia-induced differences in the distribution of either fragment were observed. In the 4-h groups, tumor uptake of Mel-14 F(ab')2 increased from 7.04 +/- 1.59% injected dose (ID)/g at 37 degrees C to 20.65 +/- 4.53% ID/g at 42 degrees C (P less than 0.0001), and tumor localization of the control fragment rose from 5.23 +/- 1.35% ID/g to 14.51 +/- 1.37% ID/g (P less than 0.0001). In another experiment, F(ab')2 fragments were injected, tumors were heated for 4 h, and groups were sacrificed at 4, 8, and 16 h after injection. Statistically significant 2- to 3-fold higher uptake of both fragments in tumor were observed at all time points. Hyperthermic conditions also resulted in higher tumor:tissue ratios for both fragments. These results suggest that it may be possible to use tumor-localized hyperthermia to increase the therapeutic utility of radiolabeled monoclonal antibodies, particularly when labeled with short lived nuclides such as the 7.2-h alpha-emitter 211At.     

Soluble factor in normal tissues that stimulates high-molecular-weight sialoglycoprotein production by human colon carcinoma cells

The stimulation of high molecular weight sialoglycoprotein synthesis by a soluble factor derived from normal colon tissues was studied in vitro with human colon carcinoma cell lines, HT-29 P and a metastatic variant HT-29 LMM. The synthesis of all three high-molecular-weight sialoglycoproteins (approximate Mr 900,000, 740,000, and 450,000) by HT-29 P cells or HT-29 LMM cells growing in vitro was enhanced by supplementing the culture medium with a conditioned medium of fresh human colon organ culture. Changes were detected by polyacrylamide gel electrophoresis of lysates from [3H]glucosamine-labeled cells on 3% gels followed by fluorography, or by electrophoresis of lysates from unlabeled cells followed by incubation with 125I-labeled wheat germ agglutinin and autoradiography. No changes were detected in the major protein components or in glycoproteins at Mr less than 200,000 as revealed by polyacrylamide gel electrophoresis. The treated cells did not change their growth rate or morphology. The connective tissue portions of the colon tissues were apparently responsible for the production of this stimulatory substance. The stimulatory activity was preserved at 56 degrees C but was inactivated by heating at 100 degrees C. The substance was eluted from a Sephacryl S-200 column at a position between the elution positions of ovalbumin and trypsinogen. The colon carcinoma cells treated with the conditioned medium and producing increased amounts of high-molecular-weight sialoglycoproteins were less sensitive to the cytolytic effects of recombinant interleukin 2-activated human peripheral blood lymphocytes than untreated cells were. The treated colon carcinoma cells induced stronger platelet aggregation than their untreated counterparts did. Therefore, this substance may represent one of the normal host tissue factors that can influence and modulate malignant behavior of carcinoma cells growing in vivo.     

Enhanced tumour uptake of radiolabelled antibodies by hyperthermia: Part I: Timing of injection relative to hyperthermia.

Improving drug and macromolecular delivery of anti-cancer agents to tumours results in greater efficacy without increased toxicity. The current study was undertaken to assess the effects of the timing of injection of tumour specific and non-specific monoclonal antibodies (mAbs) relative to a hyperthermia treatment on tumour and normal tissue uptake. Using a local hyperthermia protocol of 45 min at 43 degrees C, uptake in tumour and normal tissues was measured at 1, 4, 12, 24, 48 and 72 h after injection. An anti-tenascin chimeric mAb, ch81C6, served as the specific mAb in a D-54 MG glioma xenograft mouse model. The chimeric mAb chTPS3.2 served as the control. A five-to-eight-fold increase in uptake of the tumour-targeted mAb was achieved in the heated tumours when compared with the non-heated tumours at 1 h. Differences in absolute tumour uptake of the specific mAb between the mice injected prior to hyperthermia and mice injected post-hyperthermia were seen only at 1 and 12 h. The median uptakes in the tumours of mice injected pre-heat were 25%ID/g at 1 h and 43.5%ID/g at 12 h, while in the animals injected post-hyperthermia the median uptakes were 45.5%ID/g and 80.2%ID/g, respectively. Blood levels of both the specific and non-specific mAbs were consistently higher over the initial 12 h period in the mice injected post-hyperthermia. Normal tissue uptake was also increased at most time points in the mice injected post-hyperthermia. The clinical importance of the differences in specific mAb uptake in tumour detected statistically at 1 and 12 h is questionable, given the highly variable nature of mAb uptake in vivo. Tumour targeting mAbs administered in combination with heat may be injected either prior to or immediately following hyperthermia treatment, with the expectation that levels of uptake in tumour will be relatively equivalent. Absolute normal tissue levels will be higher in patients receiving the mAb post-hyperthermia.     

Radiolabeling and biological evaluation of DOTA-Ph-Al derivative conjugated to anti-EGFR antibody ior egf/r3 for targeted tumor imaging and therapy

An appropriate bifunctional chelating agent namely DOTA-Ph-Al was developed for the conjugation with biological vectors (anti EGFr antibody). We hereby report the synthesis of p-bromoacetamidobenzyl derivative of DOTA and its conjugation to monoclonal antibody anti-EGFR ior egf/r3. Immunoconjugate was prepared by conjugation of p-bromoacetamidobenzyl derivative of DOTA with ior egf/r3. Modified antibody was purified by size exclusion chromatography. DOTA-Ph-Al-ior egf/r3 exhibited quantitative 99mTc-labeling (>96%) with specific activity 10-20 mCi/mg of protein and 90Y-labeling with specific activity 2-5 mCi/mg. Immunoreactivity was determined by flow cytometry. Receptor ligand assay on murine cell line EAT and human tumor cell line U-87MG showed Kd = 2.87 nM and 4.86 nM respectively. The stability in serum indicated that 99mTc remained bound to antibodies up to 24h and 98% 90Y was associated with the mAb for five days. Biodistribution characteristics of Ab-conjugate radiolabeled to 99mTc and 90Y radionuclide was examined in BALB/c mice grafted with EAT and athymic mice with U-87MG cell line demonstrated high tumor uptake with 5.5 +/- 1.3 and 7.85 +/- 1.2%ID/g at four and 24 h for 99mTc- DOTA-Ph-AI-ior egf/r3 in EAT tumors after post injection respectively. Maximal radiotracer uptake peaked 17.6 +/- 2.5%ID/g in EAT tumor and 12.89 +/- 0.66% ID/g in U-87MG tumor at 48h for 90Y. The drug excreted through renal routes as the activity in the kidneys was 13.42 +/- 0.33%ID/g at 1 h and 4.51 +/- 1.2%ID/g at 4 h for 99mTc- DOTA-Ph-Al-ior egf/r3.     

Novel human single chain antibody fragments that are rapidly internalizing effectively target epithelioid and sarcomatoid mesotheliomas

Human antibodies targeting all subtypes of mesothelioma could be useful to image and treat this deadly disease. Here we report tumor targeting of a novel internalizing human single chain antibody fragment (scFv) labeled with (??m)Tc ((??m)Tc-M40) in murine models of mesothelioma of both epithelioid (M28) and sarcomatoid (VAMT-1) origins. (??m)Tc-M40 was taken up rapidly and specifically by both subtype tumor cells in vitro, with 68% to 92% internalized within 1 hour. The specificity of binding was evidenced by blocking (up to 95%) with 10-fold excess of unlabeled M40. In animal studies, tumors of both subtypes were clearly visualized by SPECT/CT as early as 1 hour postinjection of (??m)Tc-M40. Tumor uptake measured as percent of injected dose per gram tissue (%ID/g) at 3 hours was 4.38 and 5.84 for M28 and VAMT-1 tumors, respectively, significantly greater than all organs or tissues studied (liver, 2.62%ID/g; other organs or tissues <1.7%ID/g), except the kidneys (130.7%ID/g), giving tumor-to-blood ratios of 5:1 and 7:1 and tumor-to-muscle ratios of 45:1 and 60:1, for M28 and VAMT-1, respectively. The target-mediated uptake was confirmed by a nearly 70% reduction in tumor activity following administration of 10-fold excess of unlabeled scFv. Taken together, these results indicate that M40 can rapidly and specifically target epithelioid and sarcomatoid tumor cells, demonstrating the potential of this agent as a versatile targeting ligand for imaging and therapy of all subtypes of mesothelioma.     

Biodistribution of indium-111-labeled OC 125 monoclonal antibody intraperitoneally injected into patients operated on for ovarian carcinomas

The biodistribution of 111In-labeled monoclonal antibody (MAb) OC 125 was studied after i.p. injection in 28 patients who underwent surgery for ovarian carcinoma. Group I (eight patients) received intact 111In-labeled OC 125 MAb, Group II (three patients) intact 111In-labeled irrelevant NS, Group III (five patients) intact 111In-labeled OC 125 MAb associated with 20 mg of the same unlabeled MAb and Group IV (12 patients) F(ab')2 fragments of 111In-labeled OC 125 MAb. The patients were operated on 1 to 3 days after i.p. injection, and the surgeon removed large tumor fragments and/or small tumor nodules and, in some patients, collected the residual perfusion fluid from which malignant cell clusters were isolated. Uptake by large tumor fragments at 24 h was low: 0.0031 +/- 0.0032% injected dose per gram (%ID/g) for Group I and 0.0024 +/- 0.0022%ID/g for Group IV. It was moderately higher than that of Group II (0.0014 +/- 0.0006%ID/g) and Group III (0.0015 +/- 0.0007%ID/g). Uptake by small tumor nodules (0.1302 +/- 0.0802%ID/g at 72 h for Group I) and malignant cell clusters (median: 0.3322, with a maximum value of 4.1614%ID/g at 24 h for Group IV) was markedly higher. Tumor-to-normal tissue ratios with OC 125 MAb [intact or F(ab')2 fragments] ranged between 0.1 and 8.5 for large tumor fragments and 2 and 8,700 for small tumor nodules and malignant cell clusters. It would thus appear that RIT is feasible if an appropriate radionuclide can be selected for antibody labeling.     

Decreased expression of DNA topoisomerase I in camptothecin-resistant tumor cell lines as determined by a monoclonal antibody

DNA topoisomerase I (topo I) has been identified as a principal target of a plant alkaloid camptothecin (CPT) and its derivative (CPT-11). The latter compound is expected to be a clinically useful antitumor agent. Three human tumor cell lines resistant to CPT (A549/CPT, HT-29/CPT, St-4/CPT) were isolated in vitro, and a murine tumor cell line resistant to CPT-11 (P388/CPT) was isolated in vivo by continuous exposure of the drugs. A549/CPT, HT-29/CPT, and St-4/CPT showed 1.8-, 6.9-, and 8.8-fold more resistance to CPT, and P388/CPT showed 45-fold more resistance to CPT than did the parental line. To examine the possible involvement of topo I in drug-resistant mechanisms, a monoclonal antibody was developed by using purified human topo I as antigen. The antibody T14C (immunoglobulin G1) recognized both human and murine topo I, as shown by Western blot analysis. By using this monoclonal antibody, cellular contents of topo I were examined in CPT-resistant tumor lines. Respective contents of topo I in HT-29/CPT, St-4/CPT, and P388/CPT were approximately 8-, 4-, and 3-fold less than those in their parental cell lines. A549/CPT, a weak CPT-resistant line, possessed amounts of topo I similar to those of the parental line. HT-29/CPT showed lower topo I activity than did the parental HT-29 in the nuclear extracts and in the hydroxylapatite column-eluted fractions. Purified topo I from HT-29 and HT-29/CPT showed similar catalytic activity when the same amounts of protein were used. These results indicate that the quantitative reduction of topo I content seems to be the most frequently occurring event in the development of resistance to camptothecin.     

Time-dependent dephosphorylation through serine/threonine phosphatases is required for stable adhesion of highly and poorly metastatic HT-29 colon carcinoma cell lines to collagen

Adhesion stabilization is a prerequisite for the long-term adhesion of circulating metastatic tumor cells, and tumor cells with different metastatic potential demonstrate distinct patterns of cell adhesion properties. An important event during formation of organ metastases is integrin-mediated extracellular matrix (ECM) binding that can initiate signal transduction events. Recently we reported that Ser/Thr kinases are involved in regulation of tumor cell adhesion. In the present study the influence of dephosphorylation by Ser/Thr protein phosphatases (PPases) on tumor cell adhesion was investigated. Pretreatment of poorly and highly metastatic human HT-29 colon carcinoma cells with the broad-range inhibitors sodium fluoride (NaF) and sodium pyrophosphate (PyroP) resulted in strong reduction in adhesion of HT-29 cells to various ECM components. Surprisingly, when specific Ser/Thr PPase inhibitors like tautomycin were used we found only a partial reduction in adhesion of highly metastatic HT-29LMM cells to collagen I but not to collagen IV. Other inhibitors did not inhibit adhesion, and poorly metastatic HT-29P were not affected by any specific Ser/Thr PPase inhibitors. Therefore, the effects of NaF on adhesion-mediated Tyr phosphorylation were investigated further. Pretreatment with this inhibitor led to a reduction in phosphorylation of focal adhesion kinase (FAK). In contrast, in cells grown adherent to tissue culture dishes, low concentrations of NaF increased FAK phosphorylation whereas high concentrations inhibited the amount of phosphorylated FAK. Although NaF inhibited adhesions it did not cause changes in cell morphology or detachment of cells from ECM. We hypothesize that dual-specific PPases may be involved in the regulation and establishment of new adhesive interactions in HT-29 cells, but they are not required for maintenance of stable adhesions to ECM.     

Tumor targeting with radiolabeled antibodies in a human carcinoembryonic antigen transgenic mouse model

Mice transgenic for the carcinoembryonic (CEA) gene were used to study the biodistribution and tumor targeting of a radioiodinated monoclonal antibody (MAb), T84.66. The specificity of antibody uptake in tumors was assessed in mice bearing a CEA-transfected syngeneic tumor as well as the antigen-negative parental tumor. With high CEA-expressing tumors, the percent injected dose per gram (%ID/g) approached 30% at 48 hr. Tumor uptake in antigen-positive tumors was 5-8-fold higher than that observed in the antigen-negative parental tumors. Only antigen-positive tumors were visualized by immunoscintigraphy. The tumor targeting obtained in athymic nude mice bearing human tumor xenografts was similar to that observed with CEA-expressing murine tumors implanted in either athymic nude or transgenic mice. The degree of localization of CEA-transfected murine tumors was related with the level of antigen expression. Circulating antigen-radio-antibody complexes were not detected while blood clearance of radio-antibody was similar between transgenic and non-transgenic mice. With the exception of the large bowel, the distribution of radioiodinated MAb in normal tissues was similar in both CEA transgenic and non-transgenic mice. Increased localization of intact antibody was observed in the large bowel from transgenic mice, suggesting specific targeting to antigen-positive normal tissues. These results suggest that the CEA transgenic mouse model will be useful in the development of antibodies for radio-immunodetection and treatment of carcinomas expressing CEA.     

Biodistribution and pharmacokinetics of 125I-labeled monoclonal antibody M75 specific for carbonic anhydrase IX,an intrinsic marker of hypoxia,in nude mice xenografted with human colorectal carcinoma

Carbonic anhydrase IX (CA IX) is frequently expressed in human carcinomas and absent from the corresponding normal tissues. Strong induction by tumor hypoxia predisposes CA IX to serve as a target for cancer diagnostics and therapy. Here we evaluated targeting properties and pharmacokinetics of CA IX-specific monoclonal antibody (MAb) M75. Binding parameters of (125)I-labeled M75, including equilibrium dissociation constant, hypoxia-related binding to various cell lines and internalization, were analyzed in vitro. Biodistribution of (125)I-M75 in nude mice bearing HT-29 human colorectal carcinoma xenografts with hypoxic pattern of CA IX expression was studied by measurements of radioactivity in dissected tissues and macroautoradiography of tissue sections. Pharmacokinetics of intravenously administered (125)I-M75 was described using a 2-compartment model. Blood clearance showed a distribution phase t(1/2)(alpha) = 3.4 hr and an elimination phase t(1/2)(beta) = 55.3 hr postinjection. Despite predominant CA IX localization in less accessible perinecrotic regions, (125)I-M75 exhibited specific accumulation in xenograft, with a mean uptake of 15.3 +/- 3.6% of injected dose per gram of tumor tissue at 48 hr postadministration. Specificity of M75 localization was confirmed by low tumor uptake of control antibody. Altogether, our data demonstrate that M75 MAb is a promising tool for selective immunotargeting of hypoxic human tumors that express CA IX.     

Positron emission tomography imaging and biodistribution of vascular endothelial growth factor with 64Cu-labeled bevacizumab in colorectal cancer xenografts

Vascular endothelial growth factor (VEGF) is considered to be a major angiogenic factor responsible for the development of tumor vasculature. The aim of this study was to image VEGF expression with (64)Cu-labeled anti-VEGF antibody (bevacizumab) non-invasively, and to see whether or not the expression was correlated with tumor accumulation in colorectal cancer xenografts. Bevacizumab was conjugated with the bifunctional chelator 1, 4, 7, 10-tetraazacyclododecane-1, 4, 7, 10-tetraacetic acid (DOTA) and radiolabeled with (64)Cu. In vivo biodistribution studies and positron emission tomography (PET) imaging were performed on mice bearing human colorectal cancer (HT29) xenografts after injection of (64)Cu-DOTA-bevacizumab, which showed clear accumulation of (64)Cu-DOTA-bevacizumab in the tumor (22.7 ± 1.0 %ID/g, 24 ± 0.2 %ID/g, 19.0 ± 2.5 %ID/g at 24, 48 and 72 h, respectively). Tumor accumulation of (64)Cu-DOTA-bevacizumab was significantly correlated with VEGF expression as measured by western blot (ρ = 0.81, P = 0.004). Vascular endothelial growth factor blocking with unlabeled bevacizumab significantly reduced tumor accumulation of (64) Cu-DOTA- bevacizumab (9.7 ± 1.2 %ID/g, P < 0.001) at 48 h. Interestingly, the blood concentration of VEGF in the mice treated with excess fold of bevacizumab was significantly higher than those without at 48 h (25.5 ± 4.6 %ID/g vs 6.5 ± 2.1 %ID/g, P = 0.0016). Liver uptake decreased from 24 h (17.2 ± 1.7 %ID/g) to 48 h (13.0 ± 4.2 %ID/g) and 72 h (10.6 ± 1.5 %ID/g) due to hepatic clearance of the tracer. The present study successfully showed (64) Cu-DOTA-bevacizumab as a potential PET tracer for non-invasive imaging of VEGF expression in colorectal cancer xenografts.     

Breast-tumor xenograft targeting and therapy studies using radiolabeled chimeric anti-cea monoclonal-antibody t84.66

Carcinoembryonic antigen (CEA) is expressed in approximately 60% of breast carcinomas. T84.66 is a well characterized anti-CEA murine monoclonal antibody (MAb) that does not cross-react with other CEA-related proteins. It has been humanized and used extensively after radiolabeling in clinical/experimental protocols for localization/therapy of colorectal cancer. MCF-7 human breast cancer cell line expresses CEA and is tumorigenic in athymic mice. In order to determine if anti-CEA MAb could specifically target breast cancer CEA, biodistribution, radiolocalization and therapy studies were performed in the animal model. Five tumor-bearing animals per time point were injected with 15 muCi of In-111-cT84.66. Mice were imaged and sacrificed at 24, 48, 72 and 144 h and biodistribution studies performed. For therapy studies, 19 tumor-bearing mice were injected either with 120 muCi of 90Y-cT84.66 or PBS. The tumors were measured tri-weekly and weighed at autopsy 21 days post therapy. Activity accumulation steadily increased in the tumors reaching 21% of the injected dose per gram of tumor (ID/g) at 144 h. At that time, the %ID/g in the tumor was 3 times higher than that in blood and the liver and 8 times higher than in other major organs. On day 10 post-therapy, 16 of the 19 control mice had tumor volumes between 1 and 3 cm3, while none of the treated tumors ever reached 1 cm3 in size. At autopsy, a 12-fold tumor weight difference (p=0.0001) was observed between control and treated mice (2.4g vs. 0.2g average weight, respectively). In summary, breast cancer CEA was specifically targeted with T84.66 allowing good tumor localization as well as significant tumor growth inhibition. Given the significant expression of CEA in breast cancer, this tumor should be included into the CEA-expressing malignancies for targeting with anti-CEA MAbs.