Autoradiolysis of iodinated monoclonal antibody preparations

We investigated the effects of ionizing radiation on the immunointegrity of antibody fragments (Fab) because large amounts of high specific activity ¹³¹I may damage the proteins. We found that 1000 Gy of external ¹³⁷Cs γ radiation was sufficient to destroy 80–90% of the immunointegrity of the initial preparation. This effect was also produced by internally added [¹³¹I]NaI in a quantity sufficient to provide the same radiation absorbed dose. Since radioiodinated monoclonal antibodies labeled to high specific activity are being evaluated for radioimmunotherapy, the above observation is significant since high levels of internal radiation occur with therapeutic doses of ¹³¹I-labeled antibody. Human serum albumin in low concentration (2%) added to the iodinated antibody solutions was successful in preventing loss of immunoreactivity and can be used to protect and stabilize therapeutic quantities of radiolabeled monoclonal antibody preparations.     

Human anti-(murine Ig) antibody responses in patients with hepatocellular carcinoma receiving intrahepatic arterial131I-labeled Hepama-1 mAb. Preliminary results and discussion

Human anti-(murine Ig) antibody (HAMA) responses were monitored in 32 patients with unresectable hepatocellular carcinoma (HCC) undergoing radioimmunotherapy using¹³¹I-labeled anti-HCC monoclonal antibody (Hepama-1 mAb) intrahepatic arterial infusion. Dosages of Hepama-1 mAb ranged from 5 mg to 20 mg and the mAb was radiolabeled with 0.74–4.00 GBq (20–108 mCi)¹³¹I (4–6 mCi/mg). T lymphocyte subsets were examined before and after radioimmunotherapy in 24 patients. In this series, 34.4% (11/32) of patients developed HAMA within 2–4 weeks after the infusion. All patients with a negative HAMA response (n=14). had CD4⁺ T lymphocyte subsets (T helper/inducer) much lower than those of the HAMA-positive (n=10) patients and the control group (n=40) (P<0.01) prior to infusion. The sequential resection and survival rates in the HAMA-negative group were also lower than that of the HAMA-positive group. Thus, the determination of T lymphocyte subsets might help to predict the HAMA response in HCC patients during radioimmunotherapy.     

Radioimmunoimaging of Liver Metastases with PET Using a 64Cu-Labeled CEA Antibody in Transgenic Mice

Purpose

Colorectal cancer is one of the most common forms of cancer, and the development of novel tools for detection and efficient treatment of metastases is needed. One promising approach is the use of radiolabeled antibodies for positron emission tomography (PET) imaging and radioimmunotherapy. Since carcinoembryonic antigen (CEA) is an important target in colorectal cancer, the CEA-specific M5A antibody has been extensively studied in subcutaneous xenograft models; however, the M5A antibody has not yet been tested in advanced models of liver metastases. The aim of this study was to investigate the ⁶⁴Cu-DOTA-labeled M5A antibody using PET in mice bearing CEA-positive liver metastases.

Procedures

Mice were injected intrasplenically with CEA-positive C15A.3 or CEA-negative MC38 cells and underwent micro-computed tomography (micro-CT) to monitor the development of liver metastases. After metastases were detected, PET/MRI scans were performed with ⁶⁴Cu-DOTA-labeled M5A antibodies. H&E staining, immunohistology, and autoradiography were performed to confirm the micro-CT and PET/MRI findings.

Results

PET/MRI showed that M5A uptake was highest in CEA-positive metastases. The %ID/cm³ (16.5%±6.3%) was significantly increased compared to healthy liver tissue (8.6%±0.9%) and to CEA-negative metastases (5.5%±0.6%). The tumor-to-liver ratio of C15A.3 metastases and healthy liver tissue was 1.9±0.7. Autoradiography and immunostaining confirmed the micro-CT and PET/MRI findings.

Conclusion

We show here that the ⁶⁴Cu-DOTA-labeled M5A antibody imaged by PET can detect CEA positive liver metastases and is therefore a potential tool for staging cancer, stratifying the patients or radioimmunotherapy.     

Quantitative imaging of mouse L-6 monoclonal antibody in breast cancer patients to develop a therapeutic strategy

L-6, a mouse IgG2a anti-adenocarcinoma monoclonal antibody (MoAb) with favorable immunopathology and mouse biokinetics, was evaluated for cancer radioimmunotherapy by pharmacokinetic studies in 10 patients with breast cancer. The effect of escalating the preinfused protein dose was studied in two patients at each level, using 50, 100, 150, 200 and 400 mg of unlabeled L-6 prior to a 10 mCi imaging dose of ¹³¹I L-6. Quantitative imaging, and blood and urine clearances were obtained. After the 50 mg preinfusion, rapid blood clearance and lung extraction of the radiopharmaceutical occurred immediately post injection. Greater preload amounts of L-6 were associated with an increase in the intercept of the slow phase of the blood clearance from 17 to 22% injected dose (ID) with 50 mg to 70 to 80% ID with 400 mg (P <0.01). Lung uptake of the radipharmaceutical immediately post injection decreased from 15 to 19% ID (50 mg) to 6 to 8% ID (400 mg). Tumors were visualized only after larger L-6 preloads, but in these patients small chest tumors contained 0.6–1.2% ID (0.1% ID/g maximum). This study suggests that L-6 reactive sites that are readily available in the lung can be saturated, so that a subsequent dose of I-131 L-6 is delivered to the tumor. This approach provides a new strategy for developing an effective method for radioimmunotherapy using a MoAb that has some cross-reactivity. Quantitative imaging contributed to detection of the cross-reactivity and the strategy for overcoming it.     

Detection of 2,4,6-trinitrotoluene in seawater using a reversed-displacement immunosensor

Reported in this study are the experimental design and results of an immunosensor for the detection of the explosive, 2,4,6-trinitrotoluene (TNT) in seawater using a reversed-displacement format. This reversed-displacement immunosensor methodology has successfully measured TNT in seawater by direct injection, eliminating the need for preconcentration or pretreatment of samples. A microcolumn containing an Affi-Gel resin derivatized with a 2,4,6-trinitrobenzene (TNB) moiety and a fluorophore-labeled anti-TNT antibody composed the immunoassay reactive chamber. Fluorophore-labeled anti-TNT antibody was incubated with the modified Affi-Gel resin until binding equilibrium was reached. Under a constant flow, samples containing TNT were introduced into the flow stream displacing the fluorophore-labeled TNT antibody. Limits of detection were 2.5ng/mL or part-per-billion (ppb) for TNT in saline buffer and 25ppb in seawater with an analysis time of 10 min. Two anti-TNT antibodies with differing binding affinities were compared in the reversed-displacement assay format, and a correlation between affinity and detection limits was observed. Furthermore, we have demonstrated that the reversed-displacement format can be used to screen seawater samples containing TNT, remains effective after dozens of cycles, and provides significant fluorescence response before regeneration is required.     

Monoclonal antibodies for intravesical radioimmunotherapy of human bladder cancer

Local administration of radioimmunoconjugates may allow successful tumor therapy. Bladder cancer appears well suited to this approach, because of its superficial and multifocal nature, and because it will allow direct intravesical administration of conjugates. Implantation of human bladder cancer cell lines in the bladder wall of nude rats results in tumor formation, providing an excellent model to test this. We have developed two murine monoclonal antibodies (MAbs), BLCA-8, IgG₃, and BLCA-38, IgG₁, both of which react with malignant cells and shed into voided urine of patients with transitional cell carcinoma (TCC) of the bladder, but not with normal bladder urothelial cells. Radioimmunoconjugates produced with¹³¹Iodine (¹³¹I) or¹²⁵I have been used for biodistribution studies following administration directly into the bladder. Radioiodinated intact MAbs or Fabs administered intravesically into nontumor-bearing rats did not leak into the systemic circulation and were stable in urine for up to 100h. Biodistribution studies carried out following intraperitoneal or intravesical administration of radioimmunoconjugates to tumor-bearing nude rats indicate good tumor uptake of both MAbs. Together with immunoreactivity assays, these studies demonstrate that¹³¹I-labeled MAbs have considerable potential for intravesical radioimmunotherapy of human bladder tumors, and further studies are under way.     

Clinical studies with B72.3 in ovarian cancer and probe-guided tumor localization

The present study reports the findings of radiolabeled monoclonal antibody (MoAb) application in the post-operative monitoring of patients with ovarian carcinoma. We studied 40 patients with histologically confirmed ovarian cancer using two radiolabeled MoAbs, ¹³¹I-B72.3 and ¹³¹I-OC125. Antibody scans showed that high uptake of radiolabeled MoAb was consistently associated with presence of disease confirmed by computed tomography, ultrasonography, clinical evolution and in a few cases by second look procedures. Computed tomography could not discriminate well between post-operative fibrosis and tumor lesion especially when localized in the peritoneum. We conclude that radiolabeled MoAbs, computed tomography and serum tumor markers are complementary in the postoperative monitoring of patients with ovarian carcinoma.     

La radio-immunothérapie préciblée des tumeurs solides : une démarche pluridisciplinaire

No effective therapy is currently available for the management of patients with metastases of most solid tumors. Thus, pretargeted radioimmunotherapy approaches have been developed that have shown promises. One of these techniques uses bispecific monoclonal antibody and radiolabeled bivalent haptens injected sequentially. In two clinical trials, 29 patients with advanced, progressive medullary thyroid carcinoma, as documented by short serum calcitonin doubling times, received an anti-carcinoembryonic antigen x anti-diethylenetriamine pentaacetic acid (DTPA)–indium) bispecific monoclonal antibody, followed four to five days later by an ¹³¹I-labeled bivalent hapten. Overall survival was significantly longer in high-risk, treated patients than in high-risk, untreated patients (110 versus 61 months; P < 0.030). Forty-seven percent of patients, defined as biologic responders by a more than 100% increase in calcitonin doubling time, experienced significantly longer survival than non-responders (159 versus 109 months; P < 0.035) and untreated patients (159 versus 61 months; P < 0.010). Toxicity was mainly hematologic and related to bone/bone-marrow tumor spread. Various multidisciplinary aspects of this long-term endeavor that resulted in long-term disease stabilization and a significantly longer survival in high-risk patients are described and discussed with respect to future directions of research on pretargeted radioimmunotherapy.     

Radioimmunotherapy for breast cancer: treatment of a patient with I-131 L6 chimeric monoclonal antibody.

We report the first treatment of metastatic breast cancer by systemic radioimmunotherapy. The serial therapy doses were chosen based on quantitative imaging data in a treatment planning approach. A terminally ill patient with aggressive, locally advanced breast cancer who had failed radiation treatment and chemotherapy was injected intravenously with radiolabeled I-131 chimeric L6, a human-mouse chimeric lgG1 monoclonal antibody to adenocarcinoma. Initially, an imaging 10 mCi dose of I-131 chimeric L6 (dose 1) deposited 8.8% of the injected dose in her chest wall tumor at 48 hours. Ten days later the patient was given a 150 mCi I-131 chimeric L6 dose (dose 2) followed three weeks later by a 100 mCi dose (dose 3). Tumor uptake and retention were comparable for doses 1 and 2, and decreased for dose 3. Following dose 3 the patient developed a manageable thrombocytopenia and transient Grade IV granulocytopenia. The tumor was observed to decrease in size with peak tumor regression occurring two weeks after dose 3. This partial response (PR) was achieved by radioimmunotherapy at a time when conventional therapy had been unable to impact the growth of the patient's massive and aggressive tumor.     

Targeting properties of an anti-CD16/anti-CD30 bispecific antibody in an in vivo system

Bispecific antibodies are currently being used in clinical trials in increasing numbers in the areas of breast cancer, prostate cancer, non-Hodgkin's lymphoma and Hodgkin's lymphoma. We have previously performed two clinical trials in patients with Hodgkin's disease with an anti-CD30/anti-CD16 bispecific antibody and demonstrated a 30% response rate in a cohort of patients otherwise resistant to standard therapeutic modalities. However, no surrogate marker could be defined in these trials indicative of optimal antibody dosing/scheduling or predictive for favorable response. In order to evaluate accurately the potential biodistribution properties of bispecific antibody in patients, we have performed a detailed analysis of the binding properties and animal model in vivo characteristics of these constructs. For this purpose, the parental antibodies (anti-CD30 and anti-CD16) and the bispecific antibody (anti-CD30/anti-CD16) were radiolabeled with either ¹²⁵I or ¹¹¹In. Antibody integrity and binding properties after labeling were confirmed by Scatchard plot and Lindmo analysis. ¹¹¹In-labeled antibodies revealed superior targeting properties in a standard SCID mouse tumor model. Both the bivalent parental anti-CD30 monoclonal antibody and the monovalent anti-CD30/anti-CD16 bispecific antibody showed excellent uptake in CD30⁺ tumors which did not differ significantly between the two (maximum uptake 16.5% ± 4.2% vs. 18.4% ± 3.8% injected dose/gram tissue). The equivalent targeting properties of the bispecific antibody compared with the parental anti-CD30 antibody encourages the further clinical development of this bispecific antibody, and might help to explain the clinical responses seen with this antibody so far in patients suffering from Hodgkin's disease. Received: 26 October 2000 / Accepted: 15 December 2000     

Chemotherapy Synergizes with Radioimmunotherapy Targeting La Autoantigen in Tumors

Background

To date, inefficient delivery of therapeutic doses of radionuclides to solid tumors limits the clinical utility of radioimmunotherapy. We aim to test the therapeutic utility of Yttrium-90 (⁹⁰Y)-radio-conjugates of a monoclonal antibody, which we showed previously to bind specifically to the abundant intracellular La ribonucleoprotein revealed in dead tumor cells after DNA-damaging treatment.

Methodology/Principal Findings

Immunoconjugates of the DAB4 clone of the La-specific monoclonal antibody, APOMAB®, were prepared using the metal chelator, 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA), and then radiolabeled with ⁹⁰Y. Mice bearing established subcutaneous tumors were treated with ⁹⁰Y-DOTA-DAB4 alone or after chemotherapy. Non-radiosensitizing cyclophosphamide/etoposide chemotherapy was used for the syngeneic EL4 lymphoma model. Radiosensitizing cisplatin/gemcitabine chemotherapy was used for the syngeneic Lewis Lung carcinoma (LL2) model, and for the xenograft models of LNCaP prostatic carcinoma and Panc-1 pancreatic carcinoma. We demonstrate the safety, specificity, and efficacy of ⁹⁰Y-DOTA-DAB4-radioimmunotherapy alone or combined with chemotherapy. EL4 lymphoma-bearing mice either were cured at higher doses of radioimmunotherapy alone or lower doses of radioimmunotherapy in synergy with chemotherapy. Radioimmunotherapy alone was less effective in chemo- and radio-resistant carcinoma models. However, radioimmunotherapy synergized with radiosensitizing chemotherapy to retard significantly tumor regrowth and so prolong the survival of mice bearing LL2, LNCaP, or Panc-1 subcutaneous tumor implants.

Conclusions/Significance

We report proof-of-concept data supporting a unique form of radioimmunotherapy, which delivers bystander killing to viable cancer cells after targeting the universal cancer antigen, La, created by DNA-damaging treatment in neighboring dead cancer cells. Subsequently we propose that DAB4-targeted ionizing radiation induces additional cycles of tumor cell death, which further augments DAB4 binding to produce a tumor-lethal ‘genotoxic chain reaction’. Clinically, this approach may be useful as consolidation treatment after a drug-induced cell death among (small-volume) metastatic deposits, the commonest cause of cancer death.This article is part II of a two-part series providing proof-of-concept for the diagnostic and therapeutic use of the DAB4 clone of the La-specific monoclonal antibody, APOMAB®.     

Pretargeted radioimmunotherapy using 131I-labelled bivalent hapten-bearing peptides

Summary The advantages of bivalent hapten-bearing peptides for the detection of tumours pretargeted with bispecific antibodies have been demonstrated. This technology is now considered for radioimmunotherapy and bivalent haptens designed to target¹³¹I are needed. We thus synthesised a series of tyrosine-containing peptides bearing the histamine-hemisuccinate hapten. These molecules were tested for their ability to bind simultaneously two anti-hapten antibody molecules. One of these bivalent haptens, AG3.0, with a lysyl-d-tyrosyl-lysine connecting chain, was found to have optimal binding characteristics and was thus selected for further investigations. AG3.0 was shown to efficiently deliver radioactive iodine to human colorectal tumours grafted in nude mice using an anti-carcinoembryonic antigen×anti-histamine-hemisuccinate bispecific antibody. AG3.0 was also targeted to human B lymphoma cells pretargeted with a bispecific antibody specific for membrane IgM. In this system, bivalent ligands such as F(ab′)₂ or IgG are rapidly internalised and covalently linked radioactive iodine is released from target cells as a result of intracellular catabolism. With the pretargeted iodine-labelled bivalent hapten, a fivefold increase in the intracellular activity retention time as compared to¹²⁵I-labelled F(ab′)₂ and IgG was observed. The radiolabelled hapten did not undergo any degradation after internalisation. These results have been confirmed in vivo with an anti-BCL₁ IgM idiotype bispecific antibody and¹³¹I-labelled AG3.0. These reagents injected as a single 300 μCi dose, 7 days after inoculation of 10⁴ BCL₁ lymphoma cells in BALB/c mice, cured 14/16 of the animals and the treatment was well tolerated. Comparatively, the same dose of labelled IgG cured 13/16 of the mice but three mice died of haematologic toxicity. The same dose of labelled F(ab′)₂ or Fab′ was completely inefficient.¹³¹I-labelled bivalent haptens are now used in phase I radioimmunotherapy clinical trials.     

Quality control test for immunoreactivity of radiolabeled antibody

A rapid method for the measurement of the immunoreactive fraction of a radiolabeled monoclonal antibody or antibody fragment has been developed. This may be used as a quality control test prior to patient administration of the radiolabeled antibody preparation. The test employs solid phase antigens and the assay is conducted under conditions of antigen excess. Assay parameters have been evaluated and a standardized procedure has been developed. The assay has been compared to a standard extrapolation method and found to give approximately the same result. The test has been used on four different radiolabeled antibodies currently in clinical trials in patients with colorectal cancer. Mean immunoreactive fractions for these radiolabeled antibodies ranged from 35 to 65% and the variability of the immunoreactive fraction ranged from 140 to 240% for different antibodies. We conclude that the quality, defined as the immunoreactive fraction, of radiolabeled antibodies is both low and highly variable, indicating the need for a quality control test of these radiopharmaceuticals in the clinic prior to patient administration.     

Syngeneic anti-idiotypic antibodies eliminate excess radiolabeled idiotypes at experimental radioimmunolocalization

Significant improvements in tumor/nontumor ratio can be achieved by injections of nonlabeled anti-idiotypic monoclonal antibodies (MAbs) during radioimmunolocalization and radioimmunotherapy using MAbs to target experimental tumors. The in vivo effects of an anti-idiotypic MAb (αH7) against a radioiodinated, high affinity, low dissociation rate, monoclonal antiplacental alkaline phosphatase antibody (H7) was investigated. Following in vivo injection of the anti-idiotypic MAb, the radioactivity in experimental tumors was found to decrease only 25% while the reduction of corresponding radioactivity in nontumor tissues amounted to 65–85%, compared to the group receiving no anti-idiotypic MAbs. These results indicate that it is possible to partially clear the circulation and nontumor tissues from excess of radiolabeled idiotypic antibody, without significant decrease in specific tumor localization, increasing the tumor/ nontumor ratio three- to fourfold. Circulating nontumor targeting radiolabeled antibodies is one of the major limiting factors in radioimmunotherapy today. Injection of anti-idiotypic MAbs could selectively significantly reduce the radiation dose to radiosensitive tissues, i.e., bone marrow and intestine, thus improving efficiency in radioimmunoscintigraphy and radioimmunotherapy.     

肺癌患者外周血T淋巴细胞分型与抗核抗体之间的关系研究

摘要 目的：研究肺癌患者外周血T淋巴细胞分型与抗核抗体之间的关系。方法：选择2019年1月到2021年6月在我院接受治疗的肺癌患者81例作为研究组,并选择同期健康志愿者81例作为对照组,检测并比较两组患者外周血CD4⁺、CD8⁺和CD4⁺/CD8⁺淋巴细胞比例,以及抗核抗体血清滴度。比较不同抗核抗体、年龄、性别、TNM分期、肿瘤分化程度以及病理类型肺癌患者外周血CD4⁺、CD8⁺和CD4⁺/CD8⁺淋巴细胞比例。结果：（1）肺癌患者外周血CD4⁺和CD4⁺/CD8⁺淋巴细胞比例显著低于对照组,而CD8⁺淋巴细胞比例显著高于对照组（P<0.05）;（2）III+IV肺癌患者外周血CD4⁺、和CD4⁺/CD8⁺淋巴细胞比例均显著低于I+II肺癌患者,而CD8⁺淋巴细胞比例均显著高于I+II肺癌患者（P<0.05）;（3）小细胞肺癌患者外周血CD4⁺、和CD4⁺/CD8⁺淋巴细胞比例均显著低于非小肺癌患者,而CD8⁺淋巴细胞比例均显著高于非小肺癌患者（P<0.05）;（4）肺癌患者抗核抗体血清滴度显著高于对照组（P<0.05）;（5）抗核抗体阳性患者CD4⁺和CD4⁺/CD8⁺淋巴细胞亚群比例均显著低于抗核抗体阴性患者,而CD8⁺淋巴细胞亚群比例显著高于抗核抗体阴性患者（P<0.05）。结论：肺癌患者外周血T淋巴细胞亚群表达异常,并且其表达水平可能与抗核抗体滴度有关。     

Novel CCL21-vault nanocapsule intratumoral delivery inhibits lung cancer growth

Background

Based on our preclinical findings, we are assessing the efficacy of intratumoral injection of dendritic cells (DC) transduced with an adenoviral vector expressing the secondary lymphoid chemokine (CCL21) gene (Ad-CCL21-DC) in a phase I trial in advanced non-small cell lung cancer (NSCLC). While this approach shows immune enhancement, the preparation of autologous DC for CCL21 genetic modification is cumbersome, expensive and time consuming. We are evaluating a non-DC based approach which utilizes vault nanoparticles for intratumoral CCL21 delivery to mediate antitumor activity in lung cancer.

Principal Findings

Here we describe that vault nanocapsule platform for CCL21 delivery elicits antitumor activity with inhibition of lung cancer growth. Vault nanocapsule packaged CCL21 (CCL21-vaults) demonstrated functional activity in chemotactic and antigen presenting activity assays. Recombinant vaults impacted chemotactic migration of T cells and this effect was predominantly CCL21 dependent as CCL21 neutralization abrogated the CCL21 mediated enhancement in chemotaxis. Intratumoral administration of CCL21-vaults in mice bearing lung cancer enhanced leukocytic infiltrates (CXCR3⁺T, CCR7⁺T, IFNγ⁺T lymphocytes, DEC205⁺ DC), inhibited lung cancer tumor growth and reduced the frequencies of immune suppressive cells [myeloid derived suppressor cells (MDSC), T regulatory cells (Treg), IL-10 T cells]. CCL21-vaults induced systemic antitumor responses by augmenting splenic T cell lytic activity against parental tumor cells.

Significance

This study demonstrates that the vault nanocapsule can efficiently deliver CCL21 to sustain antitumor activity and inhibit lung cancer growth. The vault nanocapsule can serve as an “off the shelf” approach to deliver antitumor cytokines to treat a broad range of malignancies.     

Mass Balance Studies with 14C-Labeled 2,4,6-Trinitrotoluene (TNT) Mediated by an Anaerobic Desulfovibrio Species and an Aerobic Serratia Species

Investigations were carried out to evaluate the level of incorporation of radiolabeled 2,4,6-trinitrotoluene (TNT) and metabolites into the bacterial biomass of two different bacterial species after cometabolically mediated TNT transformation. Biotransformation experiments with ¹⁴C-TNT indicated that TNT was not mineralized; however, carbon derived from TNT became associated with the cells. It was found that more than 42% of the initially applied radiolabel was associated with the cell biomass after cometabolic ¹⁴C-TNT transformation with the strictly anerobic Desulfovibrio species strain SHV, whereas with the strictly aerobic Serratia plymuthica species strain B7, 32% of cell-associated ¹⁴C activity was measured. The remainder of the radiolabel was present in the supernatants of the liquid cultures in the form of different TNT metabolites. Under anoxic conditions with the Desulfovibrio species, TNT was ultimately transformed to 2,4,6-triaminotoluene (TAT) and both diaminonitrotoluene isomers, whereas under oxic conditions with the Serratia species, TNT was converted to hydroxylaminodinitrotoluenes and aminodinitrotoluenes, with 4-amino-2,6-dinitrotoluene (4ADNT) being the major end product. In both culture supernatants, small amounts of very polar, radiolabeled, but unidentified metabolites were detected. At the end of the experiments approximately 92% and 96% of the originally applied radioactivity was recovered in the studies with the Serratia and Desulfovibrio species, respectively. Received: 21 May 1998 / Accepted: 6 July 1998     

Radioimmunodetection of human tumor xenografts by monoclonal antibody F(ab′)2 fragments

Experimental procedures are described for the radiolocalization of human tumors by murine monoclonal antibodies (MAb) in animal model systems. Visualization of tumor xenografts was clearer in nude mice as compared to experimentally immunosuppressed mice due to the higher viability of the tumors in nude mice. MAb localization in tumor tissue was greatly enhanced when F(ab′)₂ fragments rather than intact antibody molecules were used. Although tumors could be visualized with either ¹³¹I-, ¹²³I- or ¹¹¹In-labeled MAb fragments without using background subtraction, tumor-to-background ratios of radioactivity were highest for ¹³¹I-labeled fragments. ¹³¹I-labeled F(ab′)₂ fragments of eight MAb against human colorectal carcinoma, melanoma or lung carcinoma localized specifically only in those tumors that bound the MAb in vitro and not in unrelated tumors. Radiolabeled fragments of MAb with other specificities (anti-hepatitis virus MAb) did not localize in tumors. All MAb that inhibited tumor growth in nude mice effectively localized these tumors by γ-scintigraphy. On the other hand, some MAb were effective in localizing tumors but ineffective in inhibiting their growth. The ability of the specific radiolabeled F(ab′)₂ fragments to localize in tumor grafts correlated significantly with MAb binding affinity and density of antigenic sites on tumor cells together, but not with either in vitro binding parameter alone. Thus, Scatchard analysis of MAb binding to tumor cells may be an effective means to screen for MAb with tumor radiolocalization potential.     

A sensitive bioluminescent immunoassay for dinitrophenol and trinitrotoluene

A bioluminescent immunoassay for measuring dinitrophenol and trinitrotoluene (TNT) has been developed. The DNP and TNT were covalently linked to firefly luciferase, resulting in a conjugate containing 1 mol of DNP or trinitrophenyl (TNP) per mole of luciferase. The conjugate retained 90% of its original catalytic activity. When the conjugate was incubated with immobillzed anti-TNT or anti-DNP and varying concentrations of free TNT or DNP-leucine, the amount of conjugate bound was inversely proportional to the concentration of the free compound. Using this procedure it is possible to detect 2.5 pmol of DNP-leucine and 1.0 pmol of TNT. If the TNP or DNP is linked to glucose-6-phosphate dehydrogenase instead of luciferase, much lower quantities of antigen can be detected. This is due to the fact that this enzyme has a large turnover number so that amplification is possible. The NADH produced is measured using immobilized bacterial NADH:FMN oxidoreductase and luciferase. With this procedure, 10 amol (10^?17 mol) of antigen can be measured. These procedures should be suitable for measuring any antigen.