Rapid elimination of mouse/human chimeric monoclonal antibodies in nude mice

 At our laboratory we are currently evaluating the suitability of mouse/human chimeric monoclonal antibodies (cmAb) for use in radioimmunotherapy of patients with head and neck squamous cell carcinoma (HNSCC). We have developed cmAb containing the human constant IgG1 domain and the variable domains of murine mAb (mmAb) E48 and U36 respectively. We considered the tumour-bearing nude mouse to be a well-validated model for a first testing of the targeting capabilities of these cmAb in comparison with the mmAb. Therefore, 3 μg cmAb E48 (labelled with ¹²⁵I) and 3 μg mmAb E48 (labelled with ¹³¹I) were simultaneously injected into HNSCC-bearing nude mice and, at various assay times, mAb uptake in blood and other tissues was assessed. Remarkably, while in roughly 50% of the animals the biodistribution of the conjugates was similar, in the other animals cmAb E48 showed a much higher blood clearance than mmAb E48. This resulted in a lower tumour uptake of cmAb E48 in comparison with mmAb E48. To determine whether this phenomenon was related to mAb E48 or to the animal model, other cmAb-mmAb combinations were evaluated in the same way: cmAbs SF-25, 17-1A and U36 (all IgG1) were tested and all showed a rapid elimination in about 50% of the animals. Besides a decrease in blood concentration, an increase of cmAb levels in liver and spleen was observed within 24 h after injection. Isotype-specific enzyme-linked immunosorbent assays showed that mice that demonstrated a rapid elimination of cmAb from the blood had much lower endogenous IgG1, IgG2b and IgG3 titres than mice showing normal clearance. IgG2a levels were low in all mice. Biodistribution experiments with 3 μg chimeric 17-1A isoforms showed high blood clearance in a proportion of the mice for IgG1, IgG3 and IgG4, but not for IgG2. Increase of the cmAb dose to 100 μg resulted in a similar cmAb and mmAb biodistribution in all mice. Moreover, the biodistribution of the F(ab′)₂ fragment of an IgG1 cmAb was similar for all mice in contrast to that of coinjected whole IgG. On the basis of these results it can be hypothesized that, in mice with low endogenous IgG titres, cmAb with specific isotypes are rapidly removed from the blood (and ultimately from the body) by mediation of Fc-binding receptors. Apparently, in mice with high endogenous IgG titres or in mice receiving a high cmAb dose, these receptors are saturated. Furthermore, the rapid elimination of cmAb from nude mice, which may occur after injection at a low dose, is a phenomenon related to the nude mouse model. Received: 26 July 1996 / Accepted: 16 January 1997     

99mTc-bioorthogonal click chemistry reagent for in vivo pretargeted imaging

Metal-free click chemistry has become an important tool for pretargeted approaches in the molecular imaging field. The application of bioorthogonal click chemistry between a pretargeted trans-cyclooctene (TCO) derivatized monoclonal antibody (mAb) and a ^99mTc-modified 1,2,4,5-tetrazine for tumor imaging was examined in vitro and in vivo. The HYNIC tetrazine compound was synthesized and structurally characterized, confirming its identity. Radiolabeling studies demonstrated that the HYNIC tetrazine was labeled with ^99mTc at an efficiency of >95% and was radiochemically stable. ^99mTc–HYNIC tetrazine reacted with the TCO–CC49 mAb in vitro demonstrating its selective reactivity. In vivo biodistribution studies revealed non-specific liver and GI uptake due to the hydrophobic property of the compound, however pretargeted SPECT imaging studies demonstrated tumor visualization confirming the success of the cycloaddition reaction in vivo. These results demonstrated the potential of ^99mTc–HYNIC–tetrazine for tumor imaging with pretargeted mAbs.     

Analysis of a conjugate between anti-carcinoembryonic antigen monoclonal antibody and alkaline phosphatase for specific activation of the prodrug etoposide phosphate

Summary The selective targeting of tumours by enzymes conjugated to monoclonal antibodies (mAb) may be an ideal approach to convert relatively nontoxic prodrugs into active agents at the tumour site. We used the anti-carcinoembryonic antigen mAb BW431/26 conjugated to alkaline phosphatase (AP) and phosphorylated etoposide (etoposide-P) as a prodrug to study the feasibility of this concept. Etoposide was phosphorylated with POCl₃. Quantitative hydrolysis of etoposide-P to etoposide occurred within 10 min in the presence of AP. BW431/26 and AP were conjugated using a thioether bond. The AP conjugate retained 93% of its calculated activity.¹²⁵I-labelled AP conjugate did not show a reduction of immunoreactivity as determined by a cell-binding assay. SW1398 colon cancer cells were used to analyse the cytotoxicity of etoposide and etoposide-P. Etoposide (IC₅₀ 22 µM) was 100 times more toxic than etoposide-P (20% growth inhibition at 200 µM). Pretreatment of the cells with BW431/26-AP prior to etoposide-P exposure resulted in a dramatic increase in cytotoxicity (IC₅₀ 70 µM). The pharmacokinetics and tumour-localizing properties of BW431/27 and the AP conjugate were assessed in nude mice bearing SW1398 tumours. BW431/26 showed excellent tumour localization (10% of the injected dose/g tissue retained from 8 h to 120 h), whereas the AP conjugate showed a reduced tumour uptake (3%-0.3% of the injected dose/g tissue at 8–120 h), a faster clearance from the circulation and a high liver uptake. Radiolabelled AP showed a similar pharmacokinetic profile to the AP conjugate. Gel filtration analysis of blood, liver, and tumour samples indicated good stability of the conjugate.     

Targeting arterial wall sulfated glycosaminoglycans in rabbit atherosclerosis with a mouse/human chimeric antibody

The progression of atherosclerosis is favored by increasing amounts of chondroitin sulfate proteoglycans in the artery wall. We previously reported the reactivity of chP3R99 monoclonal antibody (mAb) with sulfated glycosaminoglycans and its association with the anti-atherogenic properties displayed. Now, we evaluated the accumulation of this mAb in atherosclerotic lesions and its potential use as a probe for specific in vivo detection of the disease. Atherosclerosis was induced in NZW rabbits (n = 14) by the administration of Lipofundin 20% using PBS-receiving animals as control (n = 8). Accumulation of chP3R99 mAb in atherosclerotic lesions was assessed either by immunofluorescence detection of human IgG in fresh-frozen sections of aorta, or by immunoscintigraphy followed by biodistribution of the radiotracer upon administration of ^99mTc-chP3R99 mAb. Immunofluorescence studies revealed the presence of chP3R99 mAb in atherosclerotic lesions 24 h after intravenous administration, whereas planar images showed an evident accumulation of ^99mTc-chP3R99 mAb in atherosclerotic rabbit carotids. Accordingly, ^99mTc-chP3R99 mAb uptake by lesioned aortic arch and thoracic segment was increased 5.6-fold over controls and it was 3.9-folds higher in carotids, in agreement with immunoscintigrams. Moreover, the deposition of ^99mTc-chP3R99 mAb in the artery wall was associated both with the presence and size of the lesions in the different portions of evaluated arteries and was greater than in non-targeted organs. In conclusion, chP3R99 mAb preferentially accumulates in arterial atherosclerotic lesions supporting the potential use of this anti-glycosaminoglycans antibody for diagnosis and treatment of atherosclerosis.     

Synthesis and biological evaluation of technetium-99m labeled galactose derivatives as potential asialoglycoprotein receptor probes in a hepatic fibrosis mouse model

Two galactose derivatives, a monovalent ^99mTc-MAMA-MGal galactoside and a divalent ^99mTc-MAMA-DGal galactoside, were synthesized and radiolabeled in high radiochemical purity (>98%). Dynamic microSPECT imaging and biodistribution study of two traces in normal and liver fibrosis mice showed that the ^99mTc-MAMA-DGal revealed higher specific binding to asialoglycoprotein receptors in liver and then rapidly excreted via both hepatobiliary system and renal clearance. The results suggest that ^99mTc-MAMA-DGal may be used as SPECT probes for noninvasive evaluation of asialoglycoprotein receptor-related liver dysfunction.     

Preparation and evaluation of a 99mTcN–PNP complex of sanazole analogue for detecting tumor hypoxia

A sanazole derivative, having a favorable single electron reduction potential (SERP) value compared to that of misonidazole, was synthesized and radiolabeled with [^99mTcN(PNP)] precursor to evaluate its potential as a hypoxia imaging agent. The complex, which was lipophilic, could be prepared in good yields and challenging studies with cysteine showed stability of the complex against trans-chelation. However, despite being lipophilic as well as possessing favorable SERP value, biodistribution studies of this complex in fibrosarcoma tumor bearing Swiss mice showed low uptake in tumor. This observation is possibly attributed to fast clearance of the complex from blood, whereby the complex spends insufficient time in tumor to get reduced and trapped. Though uptake in tumor was low, slow clearance of activity from tumor suggests reduction and trapping of the complex in hypoxic cells. The present ^99mTc-complex demonstrated acceptable values of tumor to blood (TBR) and tumor to muscle (TMR) ratios. However, low uptake in tumor which may not be indicative of the actual hypoxic status of the tumor, limit the utility of the complex to detect tumor hypoxia.     

Evaluation of 99mTc-probestin for imaging APN expressing tumors by SPECT

Aminopeptidase N (APN) is known to play important roles in tumor angiogenesis, tumor cell invasion, and metastasis. Thus, APN is an attractive biomarker for imaging tumor angiogenesis. Here we report results obtained from biodistribution and single photon emission computed tomography (SPECT) imaging studies of a technetium-99m labeled probestin (a potent APN inhibitor) conjugate containing a tripeptide, Asp-DAP-Cys (DAP = 2,3-diaminopropionic acid), chelator and a 8-amino-3,6-dioxaoctanoic acid (PEG₂) linker conducted in nude mice xenografted with HT-1080 human fibrosarcoma tumors (APN-positive tumors). These results collectively demonstrate that ^99mTc-probestin uptake by tumors and other APN expressing tissues in vivo is specific and validate the use of probestin as a vector for targeting APN in vivo.     

99mTc- and Re-labeled 6-dialkylamino-2-naphthylethylidene derivatives as imaging probes for β-amyloid plaques

Based on the conjugate strategy, two neutral ^99mTc labeled 2-(1-(6-(dialkylamino)naphthalen-2-yl)ethylidene)malononitrile (DDNP) and 1-(6-(dialkylamino)naphthalen-2-yl)ethanone (ENE) derivatives, and their corresponding rhenium complexes were synthesized. In vitro fluorescent staining indicated that the corresponding rhenium derivatives selectively stained the β-amyloid (Aβ) plaques in the brain sections of AD model mice with low background. Compared with FDDNP and FENE, the affinities of the corresponding rhenium derivatives to Aβ aggregates decreased about 10-14-fold. In vivo biodistribution experiments in normal mice showed that ^99mTc-MAMA-ENE displayed medium initial brain uptake (0.65 %ID/g at 2 min) with a reasonable washout from the brain (0.19 %ID/g at 2 h) while ^99mTc-MAMA-DDNP showed a low brain uptake (0.28 %ID/g at 2 min). Further optimize these ^99mTc-labeled tracers in order to improve their binding affinities to Aβ plaques and diffusion through the blood brain barrier may generate useful imaging agents for SPECT.     

Targeting arterial wall sulfated glycosaminoglycans in rabbit atherosclerosis with a mouse/human chimeric antibody

The progression of atherosclerosis is favored by increasing amounts of chondroitin sulfate proteoglycans in the artery wall. We previously reported the reactivity of chP3R99 monoclonal antibody (mAb) with sulfated glycosaminoglycans and its association with the anti-atherogenic properties displayed. Now, we evaluated the accumulation of this mAb in atherosclerotic lesions and its potential use as a probe for specific in vivo detection of the disease. Atherosclerosis was induced in NZW rabbits (n = 14) by the administration of Lipofundin 20% using PBS-receiving animals as control (n = 8). Accumulation of chP3R99 mAb in atherosclerotic lesions was assessed either by immunofluorescence detection of human IgG in fresh-frozen sections of aorta, or by immunoscintigraphy followed by biodistribution of the radiotracer upon administration of ^99mTc-chP3R99 mAb. Immunofluorescence studies revealed the presence of chP3R99 mAb in atherosclerotic lesions 24 h after intravenous administration, whereas planar images showed an evident accumulation of ^99mTc-chP3R99 mAb in atherosclerotic rabbit carotids. Accordingly, ^99mTc-chP3R99 mAb uptake by lesioned aortic arch and thoracic segment was increased 5.6-fold over controls and it was 3.9-folds higher in carotids, in agreement with immunoscintigrams. Moreover, the deposition of ^99mTc-chP3R99 mAb in the artery wall was associated both with the presence and size of the lesions in the different portions of evaluated arteries and was greater than in non-targeted organs. In conclusion, chP3R99 mAb preferentially accumulates in arterial atherosclerotic lesions supporting the potential use of this anti-glycosaminoglycans antibody for diagnosis and treatment of atherosclerosis.     

99mTc/Re complexes based on flavone and aurone as SPECT probes for imaging cerebral β-amyloid plaques

Two ^99mTc/Re complexes based on flavone and aurone were tested as potential probes for imaging β-amyloid plaques using single photon emission computed tomography. Both ^99mTc-labeled derivatives showed higher affinity for Aβ(1–42) aggregates than did ^99mTc-BAT. In sections of brain tissue from an animal model of AD, the Re-flavone derivative 9 and Re-aurone derivative 19 intensely stained β-amyloid plaques. In biodistribution experiments using normal mice, ^99mTc-labeled flavone and aurone displayed similar radioactivity pharmacokinetics. With additional modifications to improve their brain uptake, ^99mTc complexes based on the flavone or aurone scaffold may serve as probes for imaging cerebral β-amyloid plaques.     

Synthesis and evaluation of 99mTc–2-[(3-carboxy-1-oxopropyl)amino]-2-deoxy-d-glucose as a potential tumor imaging agent

The 2-[(3-carboxy-1-oxopropyl)amino]-2-deoxy-d-glucose (CPADG) was synthesized and radiolabeled with ^99mTcO₄⁻ to obtain the ^99mTc–CPADG complex in high yield. It was stable over 6 h in saline at room temperature and in serum at 37 °C. The partition coefficient and electrophoresis results indicated that the complex was hydrophilic and cationic. In vitro cell studies showed there was an increase in the uptake of ^99mTc–CPADG as a function of incubation time and ^99mTc–CPADG was possibly transported via the glucose transporters. The biodistribution of ^99mTc–CPADG in mice bearing S 180 tumor showed that the complex accumulated in the tumor with high uptake and good retention. The tumor/blood and tumor/muscle ratios increased with time and reached 1.91 and 5.05 at 4 h post-injection. Single photon emission computed tomography (SPECT) image studies showed there was an obvious accumulation in tumor sites, suggesting ^99mTc–CPADG would be a promising candidate for tumor imaging.     

Synthesis and biological evaluation of a novel 99mTc nitrido radiopharmaceutical with deoxyglucose dithiocarbamate,showing tumor uptake

The deoxyglucose dithiocarbamate (DGDTC) was synthesized and radiolabelled with [^99mTcN]²⁺ intermediate to form the ^99mTcN–DGDTC complex. The radiochemical purity of the ^99mTcN–DGDTC complex was over 90%, as measured by TLC and by HPLC, without any notable decomposition at room temperature over a period of 6 h. The partition coefficient and electrophoresis results indicated that this complex was hydrophilic and neutral. The biodistribution of ^99mTcN–DGDTC in mice bearing S 180 tumor showed that the complex accumulated in the tumor with high uptake and good retention. The tumor/blood and tumor/muscle ratios increased with time and reached 2.32 and 1.68 at 4 h post-injection, suggesting it would be a promising candidate for tumor imaging.     

90Y Labeling of monoclonal antibody MOv18 and preclinical validation for radioimmunotherapy of human ovarian carcinomas

The monoclonal antibody (mAb) MOv18 binds the membrane alpha isoform of the folate receptor (FR) which is overexpressed in human ovarian carcinoma cells. Exploiting the targeting capacity of this mAb, we developed and preclinically validated a protocol for the stable labeling of the mAb with ⁹⁰Y, an isotope which has shown promise in cancer radioimmunotherapy. MOv18 was derivatized with the stable macrocyclic ligand p-isothiocyanatobenzyl-1,4,7,10-tetraazacyclododecane-1,4,7,10- tetraacetic acid (Bz-DOTA). MOv18-Bz-DOTA conjugates were labeled with ⁹⁰Y or ¹¹¹In under metal-free and good laboratory practice conditions. At the optimal Bz-DOTA/mAb derivatization ratio of 4–5, conjugates maintained binding activity up to 6 months, were efficiently labeled with ⁹⁰Y or ¹¹¹In (mean labeling yield 85 and 64%, associated to a final mean specific activity of 74 and 37 MBq/mg) and displayed a mean immunoreactivity of 60 and 58%, respectively. The radiolabeled preparations were stable in human serum, with >97% radioactivity associated to mAb at 48 h after labeling. The ability of ⁹⁰Y- and ¹¹¹In-MOv18 to localize FR on tumors in vivo was analyzed in nude mice bearing tumors induced by isogenic cell lines differing only in the presence or absence of the relevant antigen [A431FR (FR-positive) and A431tMock (FR-negative)]. In vivo biodistribution in organs other than tumor was comparable in non-tumor-, A431tMock- and A431FR-bearing mice, whereas the median tumor uptake of the radiolabeled reagents, expressed as area under the curve (AUC) and maximum uptake (U_max), was significantly higher (sixfold to sevenfold) in A431FR than in A431tMock tumors (P=0.0465 and P=0.0332, respectively). Mean maximum uptake (% ID/g) for ⁹⁰Y-MOv18 was 53.7 and 7.4 in A431FR and A431tMock respectively; corresponding values for ¹¹¹In-Mov18 were 45.0 and 11.3. These data demonstrate the feasibility of ⁹⁰Y-labeling of MOv18 without compromising antibody binding ability and the immunoreagent-specific localization in vivo on FR-expressing tumors, suggesting the suitability of ⁹⁰Y-MOv18 for clinical studies.Angela Coliva and Alberto Zacchetti contributed equally to this work.     

99mTc-tricarbonyl labeled agents for cell labeling: Development,biodistribution in normal mice and preliminary in vitro evaluation

We have developed four ^99mTc(CO)₃-labeled lipophilic tracers as potential radiolabeling agents for cells based on a hexadecyl tail. ^99mTc(CO)₃-hexadecylamino-N,N′-diacetic acid (negatively charged), ^99mTc(CO)₃-hexadecylamino-N-α-picolyl-N′-acetic acid (uncharged), ^99mTc(CO)₃-N,N′-dipicolylhexadecylamine (positively charged), ^99mTc(CO)₃-N-hexadecylaminoethyl-N′-aminoethylamine (positively charged) were prepared in a radiolabeling yield: >90%. Preliminary cell uptake studies were performed in mixed blood cells with or without plasma and were compared with ^99mTc-d,l-HMPAO and [¹⁸F]FDG. In plasma-free blood cells, maximum uptake (78%) was obtained for ^99mTc(CO)₃-N-hexadecylaminoethyl-N′-aminoethylamine after 60 min incubation (compared to 55% and 23% for ^99mTc-d,l-HMPAO and [¹⁸F]FDG, respectively) while in plasma-rich medium, ^99mTc(CO)₃-N,N′-dipicolylhexadecylamine was best bound (54%, similar to the binding of ^99mTc-d,l-HMPAO). Biodistribution in normal mice showed mainly hepatobiliary clearance of the agents and initial high lung uptake. The radiolabeled compounds showed good blood clearance with maximally 7.9% injected dose per gram at 60 min post injection. While the least lipophilic agent (^99mTc(CO)₃-N,N′-dipicolylhexadecylamine, log P = 1.3) showed the best cell uptake, there appears to be no direct correlation between lipophilicity and tracer uptake in mixed blood cells. In view of its comparable cell uptake to well known cell labeling agent ^99mTc-d,l-HMPAO, ^99mTc(CO)₃-N,N′-dipicolylhexadecylamine merits further evaluation as a potential cell labeling agent.     

Linker modification reduced the renal uptake of technetium-99m-labeled Arg-Ala-Asp-conjugated alpha-melanocyte stimulating hormone peptide

The purpose of this study was to examine the biodistribution of ^99mTc-RAD-Arg-(Arg¹¹)CCMSH in B16/F1 melanoma-bearing C57 mice to determine whether the replacement of the Lys linker with an Arg linker could decrease the renal uptake of ^99mTc-RAD-Arg-(Arg¹¹)CCMSH. ^99mTc-RAD-Arg-(Arg¹¹)CCMSH exhibited rapid and high tumor uptake (17.98 ± 4.96% ID/g at 2 h post-injection) in B16/F1 melanoma-bearing C57 mice. As compared to ^99mTc-RAD-Lys-(Arg¹¹)CCMSH, the replacement of the Lys linker with an Arg linker dramatically decreased the renal uptake of ^99mTc-RAD-Arg-(Arg¹¹)CCMSH by 68%, 62%, 73% and 64% at 0.5, 2, 4 and 24 h post-injection, respectively. Flank B16/F1 melanoma lesions were clearly imaged at 2 h post-injection using ^99mTc-RAD-Arg-(Arg¹¹)CCMSH as an imaging probe.     

99mTc-labeled monomeric and dimeric NGR peptides for SPECT imaging of CD13 receptor in tumor-bearing mice

CD13 receptor plays a critical role in tumor angiogenesis and metastasis. We therefore aimed to develop ^99mTc-labeled monomeric and dimeric NGR-containing peptides, namely, NGR1 and NGR2, for SPECT imaging of CD13 expression in HepG2 hepatoma xenografts. Both NGR-containing monomer and dimer were synthesized and labeled with ^99mTc. In vivo receptor specificity was demonstrated by successful blocking of tumor uptake of ^99mTc-NGR dimer in the presence of 20 mg/kg NGR2 peptide. Western blot and immunofluorescence staining confirmed the CD13 expression in HepG2 cells. The NGR dimer showed higher binding affinity and cell uptake in vitro than the NGR-containing monomer, presumably due to a multivalency effect. ^99mTc-Labeled monomeric and dimeric NGR-containing peptides were subjected to SPECT imaging and biodistribution studies. SPECT scans were performed in HepG2 tumor-bearing mice at 1, 4, 12, and 24 h post-injection of ~7.4 MBq tracers. The metabolism of tracers was determined in major organs at different time points after injection which demonstrated rapid, significant tumor uptake and slow tumor washout for both traces. Predominant clearance from renal and hepatic system was also observed in ^99mTc-NGR1 and ^99mTc-NGR2. In conclusion, monomeric and dimeric NGR peptide were developed and labeled with ^99mTc successfully, while the high integrin avidity and long retention in tumor make ^99mTc-NGR dimer a promising agent for tumor angiogenesis imaging.     

Comparative evaluation of 99mTc-labeled aminothiols as possible brain perfusion imaging agents

Several new ^99mTc aminodithiols were prepared and evaluated comparatively in experimental animals. The ligands were diamine, triamine or tetramine dithiols. Substituents were either attached on one of the nitrogens or introduced in between the two nitrogens of diamino dithiol (DADT) backbone. ^99mTc-derivatives prepared by coupling DADT to secondary amines via ethylene group showed in mice high initial brain uptake and significant retention in brain tissue. These preparations were mixtures of more than one ^99mTc-complex differing in brain uptake and clearance from the brain. The highest brain retention (brain to blood ratio 2.53, 15 min p.i.) was achieved with the ^99mTc-complex prepared by coupling DADT with ethylene pyrrolidine. Lengthening the chain between the nitrogens of DADT moiety by introducing methyl or amino alkyl groups resulted in ^99mTc-complexes with poor brain accumulation.     

Structure-distribution relationship studies of 99mTc-2,3-diamine complexes

In order to develop an organ specific radiopharmaceutical a structure-distribution relationship study was carried out in mice using a homologous series of cationic ^99mTc-2,3-diaminoalkanes. The results showed that specific organ uptakes were uniformly low, generally less than 5% of the injected dose. Rapid removal of the lower homologues from the circulation through the excretory organs and an excessive blood retention of the higher homologue complexes were observed. Evidence of preferential renal clearance (over the hepatobiliary clearance) by the complexes was obtained from both linear and multiple regression analyses. Using the combined biodistribution data for the cationic diamino complexes and the equivalent anionic ^99mTc-2.3-dioximinoalkane complexes, the multiple correlation was evaluated between the % urinary tract uptake data at 4 h post injection and a combination of log P, molecular diameter and charge (+1 or −1) of the complexes. From the magnitude and sign of the coefficients in the equation for the regression line, it was found that the dependence of the amount of complex cleared renally on the physico-chemical parameters tested is in the order; log P, cationic charge and molecular diameter.     

Preparation and biodistribution of a 99mTc tricarbonyl complex with deoxyglucose dithiocarbamate as a tumor imaging agent for SPECT

The deoxyglucose dithiocarbamate (DGDTC) was successfully labeled with the ^99mTc(CO)₃ core to provide the corresponding ^99mTc(CO)₃–DGDTC complex in good yields. The radiochemical purity of the ^99mTc(CO)₃–DGDTC complex was over 90%, as measured by high performance liquid chromatography (HPLC). The complex possessed good stability in saline at room temperature and in mouse plasma at 37 °C. Its partition coefficient result indicated that it was a hydrophilic complex. The electrophoresis results showed the complex was neutral. The biodistribution of ^99mTc(CO)₃–DGDTC in mice bearing S 180 tumor showed that the complex clearly accumulated in tumor, exhibiting high tumor/blood and tumor/muscle ratios and good tumor retention. Single photon emission computed tomography (SPECT) image studies showed there was a visible uptake in tumor sites, suggesting ^99mTc(CO)₃–DGDTC could be considered as a potential tumor imaging agent.     

Construction and characterization of the chimeric monoclonal antibody E48 for therapy of head and neck cancer

Data from an ongoing clinical radioimmunoscintigraphy trial indicate that^99mTc-labeled monoclonal antibody (mAb) E48 is highly capable of selectively targeting squamous cell carcinoma of the head and neck (HNSCC). The percentage of the injected dose per gram of tumor tissue was found to be high, rendering mAbE48 a promising candidate mAb for therapeutic purposes. We now describe the construction of a chimeric (moouse/human) mAb E48 by recombinant DNA technology. The genes encoding the variable domains of the heavy and light chain were cloned and ligated into experession vectors containing the human 1 heavy-chain gene and the human k lightchain gene respectively. Biological properties of the resulting chimeric mAb E48 were compared to the murine form in vitro and in vivo. The reactivities of chimeric (c)mAb and murine (m)mAb E48 with HNSCC, as assessed by immunohistochemical staining as well as immuno-blotting were shown to be similar. The affinity constant appeared to be 0.9×10¹⁰ M^–1 and 1.6×10¹⁰ M^–1 for the mmAb and cmAb respectively. The biodistribution of both antibodies was tested by simultaneous injection into nude mice bearing human HNSCC xenografts. cmAb E48 was found to be cleared more rapidly from the blood than mmAb E48, resulting in a 30% lower tumor uptake but similar tumor to non-tumor ratios, 3 days after injection. Moreover, it was shown that cmAb E48 is highly capable of lysing HNSCC targets in ADCC assays in vitro, whereas the mmAb appeared to be almost incative. These data indicate that cmAb E48 has potential as a targeting agent for the eradication of HNSCC in man.