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     

Comparison of the biodistribution of 75Se- and 131I-labelled monoclonal antibodies in nude mice

A monoclonal antibody, C-215, against colon cancer, was internally labelled with [⁷⁵Se]methionine. The biodistribution was studied in tumour-bearing nude mice and compared with the biodistribution of [¹³¹I]C-215. The tissue uptake was divided into three parts: antibody bound to the antigen, antibody in the extracellular space and uptake of the released radionuclide. [⁷⁵Se]C-215 showed a greater amount of antigen-bound antibody in the tumour, but also a greater unspecific uptake both in tumour and normal tissue.     

Quantitative cumulative biodistribution of antibodies in mice

The neonatal Fc receptor (FcRn) plays an important and well-known role in antibody recycling in endothelial and hematopoietic cells and thus it influences the systemic pharmacokinetics (PK) of immunoglobulin G (IgG). However, considerably less is known about FcRn’s role in the metabolism of IgG within individual tissues after intravenous administration. To elucidate the organ distribution and gain insight into the metabolism of humanized IgG1 antibodies with different binding affinities FcRn, comparative biodistribution studies in normal CD-1 mice were conducted. Here, we generated variants of herpes simplex virus glycoprotein D-specific antibody (humanized anti-gD) with increased and decreased FcRn binding affinity by genetic engineering without affecting antigen specificity. These antibodies were expressed in Chinese hamster ovary cell lines, purified and paired radiolabeled with iodine-125 and indium-111. Equal amounts of I-125-labeled and In-111-labeled antibodies were mixed and intravenously administered into mice at 5 mg/kg. This approach allowed us to measure both the real-time IgG uptake (I-125) and cumulative uptake of IgG and catabolites (In-111) in individual tissues up to 1 week post-injection. The PK and distribution of the wild-type IgG and the variant with enhanced binding for FcRn were largely similar to each other, but vastly different for the rapidly cleared low-FcRn-binding variant. Uptake in individual tissues varied across time, FcRn binding affinity, and radiolabeling method. The liver and spleen emerged as the most concentrated sites of IgG catabolism in the absence of FcRn protection. These data provide an increased understanding of FcRn’s role in antibody PK and catabolism at the tissue level.     

Antibody-dependent difference in biodistribution of monoclonal antibodies in animal models and humans

 The study was designed to clarify the difference in pharmacokinetics of monoclonal antibodies (mAb) in animal models and humans, and to elucidate the applicability of animal models. ^99mTc-labeled murine mAb – against carcinoembryonic antigen (designated BW431/26), and neural cell adhesion molecule (NE150) – and one chimeric mouse/human mAb against nonspecific cross-reacting antigen (chNCA) were administered i.v. to normal mice and athymic mice (370 kBq, 400 ng) xenografted with human cancer cells expressing antigens, and into patients with tumor (925 MBq, 1 mg). The biodistribution of two of the three mAb (not ^99mTc-BW431/26) differed clearly in mice and patients. ^99mTc-NE150 showed specific uptake in xenografted tumor and otherwise a normal biodistribution; however, clinical examination showed increased uptake in the liver with rapid blood clearance (mean α half-life = 31.1 min) compared with ^99mTc-BW431/26 (28.4 h). ^99mTc-chNCA demonstrated increased blood clearance and renal excretion in both normal and athymic mice, with accumulation in tumors. Clinical examination showed rapid blood clearance (mean α half-life = 6.4 min) and increased uptake in the liver. High-performance liquid chromatographic analysis of ^99mTc-chNCA revealed the immune complex in blood, suggesting uptake of the complex by the reticuloendothelial cells. The biodistribution of radiolabeled mAb in animal and human models was variable and specific for each of the three mAb. The results of animal studies with mAb should be evaluated carefully before being extrapolated to humans, on the basis of the nature of the mAb and interacting substances. Received: 9 April 1997 / Accepted 3 March 1998     

The immunotherapeutic effects in tumor-bearing mice of Ly-6 monoclonal antibodies

In vivo administration of Ly-6 mAb which recognize lymphoid differentiation Ag encoded for by the Ly-6 gene complex were found to have significant beneficial immunotherapeutic effects in tumor-bearing mice. The effectiveness of the mAb treatment in mice bearing sarcomas, leukemias, or melanomas was dependent on the host and not the tumor Ly-6 phenotype. The treatment was effective in nu/nu mice, although a more pronounced inhibition of tumor growth occurred in immunocompetent mice. The effectiveness of the therapy in immunocompetent mice was dependent on the dose of mAb and was influenced by the immunogenicity of the tumor. It ranged from significant growth inhibition of weakly immunogenic tumors to complete rejection of strongly immunogenic tumors. The results of cell-mediated cytotoxic assays of splenocytes from mAb-treated mice indicated that Ly-6 mAb treatment induced and/or augmented tumor-specific CTL as well as NK cell activity in these mice. Ly-6 mAb treatment represents a novel method for tumor immunotherapy using mAb recognizing lymphoid differentiation Ag with functional activities.     

A fluorescent imaging method for analyzing the biodistribution of therapeutic monoclonal antibodies that can distinguish intact antibodies from their breakdown products

Many monoclonal antibodies have been developed for therapy over the last 2 decades. In the development of therapeutic antibodies, the preclinical assessment of an antibody's biodistribution is important for the prediction of the antibody's efficacy and safety. For imaging analyses of such biodistributions, radioisotope (RI) labeling and fluorescence labeling methods are typically used, but the resulting data are limited because these methods cannot distinguish breakdown products from intact antibodies. To resolve this problem, we developed a novel method using fluorescent resonance energy transfer (FRET)-type labeling and a spectral unmixing tool. With FRET-type labeling (labeling with 2 species of fluorophore), different fluorescence properties of labeled intact antibodies and their breakdown products (the hydrolyzed/digested type of breakdown products) are made visible. With the spectral unmixing tool, the fluorescence of a solution containing the intact antibody and its breakdown products could be unmixed in proportion to their contents. Moreover, when labeled antibodies that targeted either human epidermal growth factor receptor-2 or epidermal growth factor receptor were injected into nude mice implanted subcutaneously with tumor cells, the accumulation of the injected labeled antibodies and their breakdown products in the tumor could be separately analyzed by both whole-mouse imaging and a tumor homogenate analysis. These results suggest that our method using FRET-type labeling and a spectral unmixing tool could be useful in distinguishing breakdown products from intact antibodies.     

Mitosis-specific monoclonal antibodies block cleavage in amphibian embryos

By microinjecting monoclonal antibodies that bind specifically to mitotic and meiotic cells of a variety of species, we studied the biological activity of antigens recognized by these antibodies. The antibodies recognize a family of phosphoprotein antigens that are found throughout the cytoplasm of mitotic cells and particularly at microtubule organizing centers, including centrosomes and kinetochores. Their binding is dependent on phosphorylation of the polypeptides. Immunoglobulins were introduced into Xenopus laevis and Rana pipiens oocytes or cleaving embryos using glass micropipettes. The ability of the antibody-injected oocytes to undergo mitosis or meiosis was compared with those injected with control mouse immunoglobulins. The antibodies failed to block chromosome condensation and germinal vesicle breakdown in progesterone-treated oocytes. However, functional mitotic spindles were not assembled in cleavage stage frog embryos injected with antibodies. In vitro, the binding of the antibodies to the antigens inhibited the dephosphorylation of the antigens by alkaline phosphatase. The antibody binding to the activated microtubule organizing centers (MTOC) seems to block not only the nucleation of microtubules and the organization of the mitotic spindle, but also the dephosphorylation of proteins associated with the MTOC that normally occurs at the mitosis-G1 transition.     

Anti-tumor effects of depleting and non-depleting anti-CD27 monoclonal antibodies in immune-competent mice

CD27 plays an important role in T-cell co-stimulation and is also expressed on lymphomas. In the present study, we generated novel depleting and non-depleting monoclonal antibodies (mAbs) against mouse CD27 and characterized their co-stimulatory activity in vitro and anti-tumor effects in immune-competent mice bearing syngeneic T-cell lymphoma (EG7) expressing or lacking CD27. A profound anti-tumor effect was observed with a non-depleting mAb (RM27-3E5), but not with a depleting mAb (RM27-3C1), against either EG7/CD27(+) or EG7/CD27(−) tumors, which was associated with the induction of EG7-specific cytotoxic T lymphocytes (CTLs). Consistently, the anti-tumor effect of RM27-3E5 was abolished in T cell-deficient nude mice. These results indicate that a non-depleting agonistic mAb against CD27 is promising for cancer therapy by co-stimulating tumor-specific CTL induction.     

Comparative biodistribution studies of DTPA-derivative bifunctional chelates for radiometal labeled monoclonal antibodies

Biodistribution of five different backbone-substituted derivatives of SCN-Bz-DTPA (1B4M-DTPA, 1M3B-DTPA, 1B3M-DTPA, GEM-DTPA and 2B-DTPA) linked to MAb B72.3 were compared to that of the parent molecule after labeling with ¹¹¹indium. Athymic mice, bearing human colon carcinoma xenografts (LS-174T) were injected i.v. to determine the biodistribution of the MAb chelate conjugates. Three of the MAb metal chelate conjugates (1B4M-DTPA, 1M3B-DTPA, and 1B3M-DTPA), labeled with ¹¹¹In showed efficient and stable tumor localization as well as a slower blood clearance rate than SCN-Bz-DTPA, GEM-DTPA or 2B-DTPA MAb chelate conjugates. Major differences were also seen in normal organ uptake, especially liver and spleen. Tumor-to-liver ratios rose as a function of time for 1B4M-DTPA, 1M3B-DTPA and 1B3M-DTPA MAb chelate conjugates with virtually no accumulation of the radiometal into this organ, as revealed by no increase in the liver-to-blood values. Small accretion in normal liver was noted for SCN-Bz-DTPA, GEM-DTPA or 2B-DTPA MAb chelate conjugates. The results reviewed here, and described previously (Roselli et al., 1991) demonstrate that the use in vivo of backbone-substituted forms of the SCN-Bz-DTPA, such as 1B4M-DTPA, 1M3B-DTPA, and 1B3M-DTPA bound to MAbs, can reduce uptake of indium to normal organs while maximizing the dose to tumor.     

The protective effects of monoclonal antibodies in mice from Naegleria fowleri infection]

Protective effects of monoclonal antibodies against N. fowleri were comparatively studied. BALB/c mice were treated with two types of monoclonal antibodies, Nf 2 and Nf 154, before and after the infection with N. fowleri. The mortality and mean survival times were then compared. Also, direct effect of the monoclonal antibodies on the N. fowleri trophozoites in vitro were observed. In vitro protective effects of the monoclonal antibodies were also studied in cells infected with N. fowleri. The observed results are summarized as follows: 1. Among mice pretreated twice before the infection with monoclonal antibody Nf 2(McAb Nf 2), only 15.8% were killed, and the mean survival time was 17.7 days. This was not much different from the mice pretreated once, as the mortality and mean survival time were 16.7% and 17 days. Those effects were compatible with monoclonal antibody Nf 154(McAb Nf 154). The above findings contrast with the mortality and mean survival time of the control mice, which were 22.7% and 14.6 days respectively. 2. Mice which received twice the McAb Nf 2 following N. fowleri infection incurred a 19.4% mortality rate with 13.6 days survival time; 17.9% and 15.8 days with on time administration, in contrast to the 25% and 14.6 days in the control group. 3. Marked agglutination effect of McAb Nf 2 or McAb Nf 154 were observed on N. fowleri trophozoites. 4. When N. fowleri trophozoites were treated with McAb Nf 2 or McAb Nf 154 combined with comments, the proliferation rate was more significantly suppressed than in that the control. 5. N. fowleri trophozoites treated with McAb Nf 2 or McAb Nf 154 showed an increased number of swollen mitochondria, disfigured cisternae, lipid droplets, and osmiophilic granules in the cytoplasm. 6. A remarkable protective effect of monoclonal antibodies was noticed in CHO cells infected with N. fowleri. More than 90.6% of the infected CHO cells survived, contrasted with 27% of untreated cells. The overall results in this study suggest that N. fowleri treated with monoclonal antibodies against N. fowleri reduce the mortality and prolong the survival time of the mice when the antibodies are administered before the infection. The protective effect of the monoclonal antibodies is surmised being caused by agglutination of the trophozoites.     

B-cell display-based one-step method to generate chimeric human IgG monoclonal antibodies

The recent development of screening strategies based on the generation and display of large libraries of antibody fragments has allowed considerable advances for the in vitro isolation of monoclonal antibodies (mAbs). We previously developed a technology referred to as the 'ADLib (Autonomously Diversifying Library) system', which allows the rapid screening and isolation in vitro of antigen-specific monoclonal antibodies (mAbs) from libraries of immunoglobulin M (IgM) displayed by the chicken B-cell line DT40. Here, we report a novel application of the ADLib system to the production of chimeric human mAbs. We have designed gene knock-in constructs to generate DT40 strains that coexpress chimeric human IgG and chicken IgM via B-cell-specific RNA alternative splicing. We demonstrate that the application of the ADLib system to these strains allows the one-step selection of antigen-specific human chimeric IgG. In addition, the production of chimeric IgG can be selectively increased when we modulate RNA processing by overexpressing the polyadenylation factor CstF-64. This method provides a new way to efficiently design mAbs suitable for a wide range of purposes including antibody therapy.     

Hemagglutinin-esterase-specific monoclonal antibodies alter the neuropathogenicity of mouse hepatitis virus.

Some of mouse hepatitis virus strains contain an optional envelope glycoprotein, hemagglutinin-esterase (HE) protein. To understand the functional significance of this protein, monoclonal antibodies (MAbs) specific for this protein were generated and used for passive immunization of mice. None of these MAbs showed any virus-neutralizing activity in vitro; however, mice passively immunized with the purified MAbs were protected from lethal infection by the JHM strain of mouse hepatitis virus. Passive immunization altered the pathogenicity such that the virus caused subacute and chronic demyelination instead of acute lethal encephalitis. Virus titers in the brains of the immunized mice were significantly lower than those for the nonimmunized control mice, suggesting that the virus replication or spread was inhibited. In addition, histopathological analysis indicated that the spread of virus in the brain and spinal cord was significantly inhibited in the immunized mice. Furthermore, the mononuclear cell infiltration in the immunized mice appeared earlier than in the nonimmunized mice, suggesting that the exogenous antibody might have activated host immune responses, and thus facilitated clearance of the virus or virus-infected cells. The same protective effects were observed for both JHM(2) and JHM(3) viruses, which expressed different amounts of the HE protein. In contrast, mice infected with At11f, a variant of JHM which does not express the HE protein, were not protected by these MAbs, suggesting that protection was mediated by the specific interaction between the MAb and the HE protein. Thus, the mechanism of protection by the exogenous HE-specific MAbs may represent the early activation of innate immune mechanisms in response to the interaction between the MAbs and the HE protein.     

Novel chimeric TLR2/NOD2 agonist CL429 exhibited significant radioprotective effects in mice

Severe ionizing radiation causes the acute lethal damage of haematopoietic system and gastrointestinal tract. Here, we found CL429, the novel chimeric TLR2/NOD2 agonist, exhibited significant radioprotective effects in mice. CL429 increased mice survival, protected mice against the lethal damage of haematopoietic system and gastrointestinal tract. CL429 was more effective than equivalent amounts of monospecific (TLR2 or NOD2) and combination (TLR2 + NOD2) of molecules in preventing radiation-induced death. The radioprotection of CL429 was mainly mediated by activating TLR2 and partially activating NOD2. CL429-induced radioprotection was largely dependent on the activation of TLR2-MyD88-NF-κB signalling pathway. In conclusion, the data suggested that the co-activation of TLR2 and NOD2 could induce significant synergistic radioprotective effects and CL429 might be a potential high-efficiency selective agent.     

Analysis of anti-tumor antibodies in mice and rabbits induced by monoclonal anti-idiotope antibodies

Eight different mouse monoclonal anti-idiotope antibodies (mAb2) generated against a mouse monoclonal anti-human melanoma proteoglycan Ag (MPG) antibody (mAb1), MEM136, were tested for their ability to induce anti-MPG responses in mice and rabbits. All Ab2 were idiotypically cross-reactive and combining site-specific as demonstrated by competitive cross-inhibition studies and their ability to inhibit the binding of MEM136 to the melanoma cells, Colo38. However, only two Ab2, IM32 and IM06, were able to induce specific anti-TAA-specific (Ab1') responses in rabbits. When IM32 and IM06 were tested in allogeneic stains of mice for the induction of anti-MPG responses, only IM32 produced an Ab1' response. In mice, the Ab3 response induced by IM32 is idiotypically cross-reactive with its Ab1. Furthermore, the IM32-induced murine Ab3 and MEM136 recognized a similar MPG epitope on the melanoma cells because the Ab3 inhibited the binding of MEM136 to melanoma cells. The Ab3 induced by IM32 and IM06 in rabbits also recognized a similar epitope as the Ab1. In rabbits, the Ab3 response induced by IM32 and IM06 were idiotypically cross-reactive with each other. However, additional studies indicated that the majority of Ab3 induced by IM32 were IM32 Id-specific and lacked IM06 idiotopes. Further experimentation indicated that IM32-induced rabbit Ab3 were biologically active as demonstrated by the ability of the Ab3 to inhibit melanoma cell invasion in a Matrigel assay.     

Novel heparan sulfate structures revealed by monoclonal antibodies

The sulfated glycosaminoglycan heparan sulfate (HS) is found ubiquitously on cell surfaces, in the extracellular matrix, and intracellularly as HS proteoglycans. Because of the structural heterogeneity of HS, tissue-derived HS preparations represent a mixture of HS chains originating from different cell types and tissue loci. Monoclonal anti-HS antibodies have been employed to detect the localization of specific HS epitopes in tissues, but limited information has been available on the saccharide structures recognized by the antibodies. We have studied the saccharide epitope structures of four anti-HS antibodies, HepSS1, JM13, JM403, and 10E4, which all recognize distinct HS species as demonstrated by different patterns of immunoreactivity upon staining of embryonic rat and adult human tissues. The epitopes recognized by JM13 and HepSS1 were found almost exclusively in basement membrane HS, whereas JM403 and 10E4 reacted also with cell-associated HS species. The binding of HepSS1, JM403, and 10E4 to HS was dependent on the GlcN N-substitution of the polysaccharide rather than O-sulfation. HepSS1 thus interacted with N-sulfated HS domains, JM403 binding was critically dependent on N-unsubstituted GlcN residues, and 10E4 bound to "mixed" HS domains containing both N-acetylated and N-sulfated disaccharide units. By contrast, JM13 binding seemed to require the presence of 2-O-sulfated glucuronic acid residues.     

Mechanism of action of monoclonal antibodies that block the light activation of the guanyl nucleotide-binding protein, transducin

Seven monoclonal antibodies to the alpha subunit (G alpha) of the frog photoreceptor guanyl nucleotide-binding protein (transducin or G-protein) have been characterized as to their effect on G-protein function, and this has been correlated in the accompanying paper (Deretic, D., and Hamm, H. E. (1987) J. Biol. Chem. 262, 10839-10847) with the antibody-binding sites on G alpha tryptic fragments. Antibodies 4A, 7A, 7B, 7C, and 7D are members of a class of antibodies that block G-protein activation by light and therefore also block activation of the cGMP phosphodiesterase. All these blocking antibodies also block the interaction of G-protein with rhodopsin as measured by the light-scattering "binding signal," and as measured by the stabilization of meta-rhodopsin II by bound G-protein (extra-meta-rhodopsin II). The antibodies (or Fab fragments) also solubilize G alpha beta gamma from the membrane in the dark under isosmotic conditions and thus interfere with G alpha interaction with the membrane. Antibody 4A also blocks the extra-meta-rhodopsin II generated by G-protein-rhodopsin interaction in detergent solubilized membranes. Thus, even in the absence of phospholipids, antibody 4A blocks G-protein-rhodopsin interaction. Therefore, we suggest that the antibodies recognize a region of G alpha involved with binding to rhodopsin. An alternative hypothesis is that this antigenic site is a region of interaction between the alpha and beta gamma subunits, disruption of this interaction leading to removal of both the alpha and beta gamma subunits from the membrane and blocking interaction with rhodopsin. This does not seem to be the case because the antibodies immunoprecipitate the alpha beta gamma complex, and not just the alpha subunit. Other antibodies, 4C and 4H, do not block phosphodiesterase activation, the light-scattering signal, extra-meta-rhodopsin II formation, or interaction with the membrane in the dark and therefore recognize other sites on G alpha.     

Comparative study of epitopes recognized by two monoclonal antibodies that protects mice against Trichomonas vaginalis challenge

Trichomonas vaginalis is a flagellated protozoan which infects the urogenital tract of humans. Previous studies have demonstrated that monoclonal antibodies (MAbs) against a 62 kDa proteinase (4D8 and 1A8) decreased cytoadherence of the parasite to epithelial cells in vitro and passive inoculation of mice with two MAbs 24 h before the intraperitoneal challenge resulted in different grade of protections to T. vaginalis infection. In the present paper we describe the characterization of the epitopes recognized by MAbs 4D8 and 1A8. The epitopes were characterized by heat treatment, trichloroacetic acid precipitation, beta-mercaptoethanol treatment, enzymes proteolysis and periodate oxidation. The results showed that the two MAbs 4D8 and 1A8 each react with a different protein epitope of repetitive nature found on the same excretory-secretory molecules of T. vaginalis and it could explain the variation in the protection grade obtained in the challenge experiments.     

Pharmacokinetics and biodistribution of a new anti-episialin monoclonal antibody 139H2 in ovarian-cancer-bearing nude mice

Summary The new murine anti-episialin monoclonal antibody (mAb) 139H2 has been selected for its strong reactivity with a series of human ovarian cancer xenografts. In the present report we describe the characteristics of mAb 139H2 investigated in vitro as well as in vivo. Scatchard plot analysis using the human ovarian cancer cell line NIH:OVCAR-3 showed an affinity constant of 1 × 10⁸ M^–1 and the expression of 7 × 10⁶ antigenic sites/cell. Reactivity with OVCAR-3 xenograft tissue was intense, localized at the cell membrane, heterogeneously distributed, and mainly detectable at the apical site of the cell. Administration of radiolabelled mAb 139H2 to nude mice bearing s.c. OVCAR-3 xenografts showed specific uptake in the tumour up to 9% of the injected dose/g. The maximum uptake in the tumour was retained for 3.5 days and mAb 139H2 cleared from the tumour with a half-life of 5.5 days. The half-life in blood was 50 h and no antibody-antigen complex formation could be detected. Poor uptake and no retention in episialin-negative WiDr colon cancer xenografts demonstrated specificity. Administration of an excess of an unlabelled irrelevant mAb did not influence the uptake in the OVCAR-3 xenografts or in other tissues. In contrast, tumour uptake decreased after addition of 300 µg or more unlabelled mAb 139H2 to a tracer dose of radiolabelled mAb 139H2. The uptake of mAb 139H2 in OVCAR-3 xenografts appeared inversely related to the tumour size.Supported by the Dutch Cancer Society     

Novel tacrine derivatives that block neuronal calcium channels

A new series of tacrine (9-amino-1,2,3,4-tetrahydroacridine) derivatives were synthesized and their effects on 45Ca(2+) entry into bovine adrenal chromaffin cells stimulated with dimethylphenylpiperazinium (DMPP) or K(+), studied. At 3 microM, compound 1 did not affect (45)Ca(2+) uptake evoked by DMPP. Compounds 14, 15 and 17 inhibited the effects of DMPP by 30%. Compounds 3, 9 and tacrine blocked the DMPP signal by about 50%. Compounds 5 and 12 were the most potent blockers of DMPP-stimulated 45Ca(2+) entry (90%); the rest of the compounds inhibited the effects of DMPP by 70-80%. Compounds 1, 3, 4, 8, 10, 11, 13, 16, 17 and tacrine inhibited 45Ca(2+) uptake induced by K(+) about 20%. Compounds 6, 14 and 15 inhibited the K(+) effects by 10% or less. Compounds 7, 9, 12 and 18 blocked the K(+) signal by 30% and, finally, compounds 2 and 5 inhibited the K(+)-induced 45Ca(2+) entry by 50%. None of the new compounds was as effective as diltiazem (IC(50)=0.03 microM) in causing relaxation of the rat aorta precontracted with 35 mM K(+); the most potent was compound 7 (IC(50)=0.3 microM). Compounds 5, 6, 8, 9, 10 and 13 had IC(50)s around 10 microM and compounds 3, 4, 11 and 12 around 20 microM. Blockade of Ca(2+) entry through neuronal voltage-dependent Ca(2+) channels, without concomitant blockade of vascular Ca(2+) channels, suggests that some of these compounds might exhibit neuroprotectant effects but not undesirable hemodynamic effects.