Tumor localization and radioimaging with mixtures of radioiodinated monoclonal antibodies directed to different colon cancer associated antigens

After demonstrating enhanced tumor cell binding with a mixture of monoclonal antibodies (MAbs) in vitro, biodistribution and immunoscintigraphy studies with 3 radioiodinated anti-colon cancer MAbs and a non-specific control MAb (MOPC) were conducted in a human colon cancer (GW-39)-hamster model system. Each of the specific MAbs, but not MOPC, demonstrated extensive tumor binding and in scintigrams affected visualization of all large tumors (>0.85 g) over background. Using single MAbs, few small tumors (0.19–0.50 g) were defined above background (0–29%). However, with combinations of these specific MAbs small tumors were more frequently defined in scintigrams (43–67%). Radioimages using higher doses of MAbs and small, younger tumors more clearly demonstrated the superiority of a MAb mixture. These results confirmed that combinations of MAbs to different antigens can detect smaller tumors with better tumor localization when compared to component MAbs used singly. This study supports the concept that tumor targeting and detection may be enhanced with appropriate mixtures of MAbs.     

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.     

Monoclonal antibodies against calcitonin

Summary Twenty-seven monoclonal antibodies (MAbs) to synthetic human calcitonin (CT) were characterized for their reactivities with human CT peptide fragments by dotblot analysis on nitrocellulose paper. Most of the antibodies bound to the C-terminus and fewer to the mid-region of CT. We have studied thyroid tissue specimens from several animal species after fixation in paraformaldehyde-, glutaraldehyde-or picric acid-containing mixtures and cryostat sectioning or embedment in paraffin or plastic (Epon 812 or Lowicryl 4KM) using this panel of MAbs. The site of antigen-antibody reaction was revealed either by immunoperoxidase, immunoalkaline phosphatase or by silver-enhanced immunogold staining methods. All MAbs were able to localize CT in human, rat and mouse thyroid C cells. Nineteen MAbs recognizing synthetic salmon CT and synthetic [Asu^1,7]-eel CT by bot-blot, reacted with chicken ultimobranchial body C cells. One MAb recognizing native porcine CT by dot-blot, stained C cells in hog thyroid. Immunopositivity was confined to the cytoplasm and ultrastructural immunogold labelling demonstrated that cytoplasmic secretory granules were stained. Surgical specimens from human medullary thyroid carcinoma were also analysed for the presence of CT and a variable number of positive cells was found. Furthermore, Congo red-positive areas were shown to react with the MAbs. All conventional staining and immunoabsorption controls were negative. Hence, these MAbs may be suitable for use in routine immunopathological diagnosis of CT-producing tumors and for immunocytochemical localization of the three major CT variants in different animal species.Presented in part at the International Symposium on Biotechnology in Clinical Medicine, BIOTECH RIA '87, 13th–15th April, 1987, Rome, Italy     

New Agents for Targeting of IL-13RA2 Expressed in Primary Human and Canine Brain Tumors

Interleukin 13 receptor alpha 2 (IL-13RA2) is over-expressed in a vast majority of human patients with high-grade astrocytomas like glioblastoma. Spontaneous astrocytomas in dogs resemble human disease and have been proposed as translational model system for investigation of novel therapeutic strategies for brain tumors. We have generated reagents for both detection and therapeutic targeting of IL-13RA2 in human and canine brain tumors. Peptides from three different regions of IL-13RA2 with 100% sequence identity between human and canine receptors were used as immunogens for generation of monoclonal antibodies. Recombinant canine mutant IL-13 (canIL-13.E13K) and canIL-13.E13K based cytotoxin were also produced. The antibodies were examined for their immunoreactivities in western blots, immunohistochemistry, immunofluorescence and cell binding assays using human and canine tumor specimen sections, tissue lysates and established cell lines; the cytotoxin was tested for specific cell killing. Several isolated MAbs were immunoreactive to IL-13RA2 in western blots of cell and tissue lysates from glioblastomas from both human and canine patients. Human and canine astrocytomas and oligodendrogliomas were also positive for IL-13RA2 to various degrees. Interestingly, both human and canine meningiomas also exhibited strong reactivity. Normal human and canine brain samples were virtually negative for IL-13RA2 using the newly generated MAbs. MAb 1E10B9 uniquely worked on tissue specimens and western blots, bound live cells and was internalized in GBM cells over-expressing IL-13RA2. The canIL-13.E13K cytotoxin was very potent and specific in killing canine GBM cell lines. Thus, we have obtained several monoclonal antibodies against IL-13RA2 cross-reacting with human and canine receptors. In addition to GBM, other brain tumors, such as high grade oligodendrogliomas, meningiomas and canine choroid plexus papillomas, appear to express the receptor at high levels and thus may be appropriate candidates for IL-13RA2-targeted imaging/therapies. Canine spontaneous primary brain tumors represent an excellent translational model for human counterparts.     

Monoclonal antibodies against calcitonin. Characterization and application in light and electron microscopy immunocytochemistry

Twenty-seven monoclonal antibodies (MAbs) to synthetic human calcitonin (CT) were characterized for their reactivities with human CT peptide fragments by dot-blot analysis on nitrocellulose paper. Most of the antibodies bound to the C-terminus and fewer to the mid-region of CT. We have studied thyroid tissue specimens from several animal species after fixation in paraformaldehyde-, glutaraldehyde- or picric acid-containing mixtures and cryostat sectioning or embedment in paraffin or plastic (Epon 812 or Lowicryl 4KM) using this panel of MAbs. The site of antigen-antibody reaction was revealed either by immunoperoxidase, immunoalkaline phosphatase or by silver-enhanced immunogold staining methods. All MAbs were able to localize CT in human, rat and mouse thyroid C cells. Nineteen MAbs recognizing synthetic salmon CT and synthetic [Asu1,7]-eel CT by dot-blot, reacted with chicken ultimobranchial body C cells. One MAb recognizing native porcine CT by dot-blot, stained C cells in hog thyroid. Immunopositivity was confined to the cytoplasm and ultrastructural immunogold labelling demonstrated that cytoplasmic secretory granules were stained. Surgical specimens from human medullary thyroid carcinoma were also analysed for the presence of CT and a variable number of positive cells was found. Furthermore, Congo red-positive areas were shown to react with the MAbs. All conventional staining and immunoabsorption controls were negative. Hence, these MAbs may be suitable for use in routine immunopathological diagnosis of CT-producing tumors and for immunocytochemical localization of the three major CT variants in different animal species.     

Preclinical studies of monoclonal antibodies for intravesical radioimmunotherapy of human bladder cancer

Eighty percent of bladder cancers present as superficial disease. Many are multifocal, and apparently successful treatment is frequently followed by recurrence. The use of monoclonal antibodies (MAbs) to target radiotherapy to these tumors offers great potential, especially since they can be administered directly into the bladder (intravesically) bypassing many of the side effects encountered to date with systemic MAb-based therapy. 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. Tumor size can be monitored by X-ray analysis after administration of urograffin. Comparative studies of two murine MAbs, BLCA-8, IgG3, and C1-137, IgG1, against malignant human bladder cancer cells have been performed. Radio-immunoconjugates produced with¹²⁵Iodine (¹²⁵I) have been used for biodistribution studies following administration directly into rat 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 100 h. Biodistribution studies carried out following intravesical administration of radio-immunoconjugates to tumor-bearing nude rats indicate better tumor uptake of C1-137 than BLCA-8. Further studies to test two-step intravesical administration of biotinylated MAb followed by radioiodinated streptavidin are in progress. Our studies indicate that the C1-137 MAb may have considerable potential for intravesical radioimmunotherapy of patients with superficial bladder tumors.     

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.     

Cytotoxic properties of immunoconjugates containing melittin-like peptide 101 against prostate cancer: in vitro and in vivo studies

Background: Monoclonal antibodies (MAbs) can target therapy to tumours while minimising normal tissue exposure. Efficacy of immunoconjugates containing peptide 101, designed around the first 22 amino acids of bee venom, melittin, to maintain the amphipathic helix, to enhance water solubility, and to increase hemolytic activity, was assessed in nude mice bearing subcutaneous human prostate cancer xenografts. Methods: Mouse MAbs, J591 and BLCA-38, which recognise human prostate cancer cells, were cross-linked to peptide 101 using SPDP. Tumour-bearing mice were used to compare biodistributions of radiolabeled immunoconjugates and MAb, or received multiple sequential injections of immunoconjugates. Therapeutic efficacy was assessed by delay in tumour growth and increased mouse survival. Results: Radiolabeled immunoconjugates and antibodies showed similar xenograft tropism. Systemic or intratumoural injection of immunoconjugates inhibited tumour growth in mice relative to carrier alone, unconjugated antibody and nonspecific antibody-peptide conjugates and improved survival for treated mice. Conclusions: Immunoconjugates deliver beneficial effects; further peptide modifications may increase cytotoxicity.     

Biodistributions of intact monoclonal antibodies and fragments of BLCA-38, a new prostate cancer directed antibody

Background: Monoclonal antibodies (MAbs) are used for targeting agents to tumours while minimizing normal tissue exposure. Methods: A new anti–prostate cancer MAb, BLCA-38, was radioiodinated (I¹²⁵) and assessed for its ability to target subcutaneous human prostate cancer (DU-145) xenografts after systemic intraperitoneal administration. For comparison, the profile of J591 MAb (now in clinical trial) against LNCaP-LN3 tumours was examined. Biodistribution profiles were obtained at various times, by assessing injected dose/gram (%ID/g) and xenograft to blood (X/B) ratios. Microautoradiography of xenografts was performed. After conjugation with a melittin peptide toxin, the profiles of BLCA-38 and J591 were compared with that of an irrelevant antibody, DS-1. Results: Xenograft localization by ¹²⁵I-labeled BLCA-38 and J591 MAbs to their relevant antigen-positive tumors was comparable, and there was no unusual localization in nontumour tissues. F(ab)₂ and Fab fragments gave improved X/B ratios, but the %ID/g xenograft was decreased and they accumulated in kidneys, bladder and stomach. In contrast, the conjugates of irrelevant antibody showed no tumour targeting. Microautoradiography showed more tumour accumulation of MAbs than F(ab)₂s or Fabs. Conclusions: BLCA-38 can target prostate cancer in vivo almost as effectively as J591. Given that J591 is used clinically, BLCA-38, which targets a different antigen, has potential for radioimmunoscintigraphy and for therapeutic targeting of prostate cancer.     

Hybrid antibodies in cancer diagnosis and therapy

Monoclonal Antibodies (Mabs) represent a promising tool for cancer diagnosis and therapy. Administration of MAbs alone or conjugated to cytotoxic agents has been attempted but has significant limitations. Another potentially effective approach is the use of bispecific or bifunctional antibodies where the capacity to recognize the tumor cell and the toxic agent or lymphocyte activation molecule are united in one MAb. The hybrid molecule can be produced by chemical linkage between the two parental antibodies, or alternatively by a biological approach that consists in the fusion of the two selected hybridomas. In the resulting quadroma cell the hybridoma immunoglobulin chains recombine randomly to form the bifunctional MAb. In different in vitro and in vivo models, bifunctional MAbs against tumor and CD3 at nanomolar concentration has been shown to promote tumor cell killing by cytotoxic T cells. Specific localization of chemotherapeutic drugs in xenografted tumors has been demonstrated in mice pretreated with hybrid MAbs. The advantages of the hybrid MAb approach are that it should reduce the MAb biodistribution problem and that it involves no chemical manipulation between the functional agent and the MAb molecules.     

Fluorescein-conjugated bovine albumin; physical and biological properties

Fluorescein-bovine albumin conjugates have been prepared and found not to differ appreciably in size, shape, and homogeneity from the precursor, bovine serum albumin. Fluorescein has also been conjugated to rat plasma proteins. Their disappearance rates from the circulation of rats correspond with those obtained from the use of isotope labeling. Their sites of localization in rat tissues were shown to be in the cytoplasm but not in the nuclei of Kupffer cells, fixed macrophages, granulocytes, and proximal renal tubules. Adsorption to endothelium was a characteristic finding. Extracellular localizations were predominantly in the lumina of blood vessels and proximal renal tubules (but never in the lumina of collecting tubules), and the interstitial fluid of skeletal and cardiac muscle (but not that of glandular organs such as the adrenals, liver, and spleen). BAC absorption from the skin of rabbits requires days whereas sodium fluorescein absorption is measured in hours, attesting to the persistence of the colloidal state of BAC in vivo. Fluorescein conjugates have been used to visualize the transcapillary passage of circulating proteins in the mesenteric circulation of frogs and rats by direct microscopic observation and found to diffuse slowly in the manner predicted for plasma proteins. The normal cutaneous vessels of the rat are impermeable in the gross to the labeled proteins; second degree burn promptly increases the permeability of these vessels rendering the presence of the label detectable in the gross in the skin. The process of labeling does not render guinea pig albumin antigenic, although slight antigenicity results from labeling whole plasma protein. It is believed that sufficient biological evidence is presented to support the conclusion that fluorescein-conjugated plasma proteins, particularly albumin, behave in vivo like their native precursors.     

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.     

Antigenic Properties of the HIV Envelope on Virions in Solution

The structural flexibility found in human immunodeficiency virus (HIV) envelope glycoproteins creates a complex relationship between antigenicity and sensitivity to antiviral antibodies. The study of this issue in the context of viral particles is particularly problematic as conventional virus capture approaches can perturb antigenicity profiles. Here, we employed a unique analytical system based on fluorescence correlation spectroscopy (FCS), which measures antibody-virion binding with all reactants continuously in solution. Panels of nine anti-envelope monoclonal antibodies (MAbs) and five virus types were used to connect antibody binding profiles with neutralizing activities. Anti-gp120 MAbs against the 2G12 or b12 epitope, which marks functional envelope structures, neutralized viruses expressing CCR5-tropic envelopes and exhibited efficient virion binding in solution. MAbs against CD4-induced (CD4i) epitopes considered hidden on functional envelope structures poorly bound these viruses and were not neutralizing. Anti-gp41 MAb 2F5 was neutralizing despite limited virion binding. Similar antigenicity patterns occurred on CXCR4-tropic viruses, except that anti-CD4i MAbs 17b and 19e were neutralizing despite little or no virion binding. Notably, anti-gp120 MAb PG9 and anti-gp41 MAb F240 bound to both CCR5-tropic and CXCR4-tropic viruses without exerting neutralizing activity. Differences in the virus production system altered the binding efficiencies of some antibodies but did not enhance antigenicity of aberrant gp120 structures. Of all viruses tested, only JRFL pseudoviruses showed a direct relationship between MAb binding efficiency and neutralizing potency. Collectively, these data indicate that the antigenic profiles of free HIV particles generally favor the exposure of functional over aberrant gp120 structures. However, the efficiency of virion-antibody interactions in solution inconsistently predicts neutralizing activity in vitro.     

Evidence from the use of monoclonal antibody probes for structural heterogeneity of the growth hormone receptor.

We describe the use of four monoclonal antibodies (MAbs) to the rabbit liver growth hormone (GH) receptor and one raised against purified rat liver GH receptor to characterize liver receptor subtypes which differ in their hormone-binding regions. The anti-(rat liver GH receptor) MAb both inhibited and precipitated rat and rabbit GH receptors, but only one-half of 125I-oGH (ovine GH) binding to liver microsomes could be inhibited by excess antibody. Conversely, only one-half of 125I-anti-(rat GH receptor) MAb binding was inhibited by excess oGH and Scatchard plots for this MAb exhibited two components. Although only 50% of 125I-oGH binding to membranes was inhibited by this MAb, all solubilized receptor could be immunoprecipitated. We postulate two epitopes for the anti-(rat GH receptor) MAb, one located at the hormone-binding site (inhibitory site) and one elsewhere (immunoprecipitating site). A second, rabbit-specific antibody (MAb 7) inhibited 85% of hormone binding but only 30% of 125I-anti-(rat GH receptor) MAb binding to rabbit liver microsomes. A combination of this MAb with the anti-(rat GH receptor) MAb totally inhibited 125I-oGH binding. MAb 7 alone totally inhibited 125I-rat GH binding to rabbit liver microsomes, as it did with 125I-oGH binding to purified receptor. On the basis of these results and others we postulate three types of GH receptor in rabbit liver membranes and ascribe approximate extents of 125I-oGH binding to each. A cytosolic 'GH receptor' which is not poly(ethylene glycol)-precipitable is shown to share five epitopes with 'type 2' microsomal receptors. Purified plasma membrane and endoplasmic reticulum fractions derived from a rabbit liver microsomal preparation have identical antigenic characteristics with respect to the GH-binding region, indicating that the heterogeneity we describe is not related to receptor processing. Of the three types of GH receptor in the plasma membrane of the rabbit (and possibly rat) we postulate that one (type 1) corresponds to the GH receptor involved in stimulating growth and possesses all of the epitopes studied here. A second (type 2) appears to be identical with the cytosolic 'GH receptor' and lacks the epitope for the anti-(rat GH receptor) MAb in the hormone binding site region. A third (type 3) does not possess the epitope for the inhibitory anti-(rabbit GH receptor) MAb, appears not to bind rat GH and is lost during purification. The availability of type-specific MAbs will facilitate assignment of specific functions to liver receptor subtypes which mediate the multiple functions of GH.     

Generation of Neutralizing Human Monoclonal Antibodies against Parvovirus B19 Proteins

Infections caused by human parvovirus B19 are known to be controlled mainly by neutralizing antibodies. To analyze the immune reaction against parvovirus B19 proteins, four cell lines secreting human immunoglobulin G monoclonal antibodies (MAbs) were generated from two healthy donors and one human immunodeficiency virus type 1-seropositive individual with high serum titers against parvovirus. One MAb is specific for nonstructural protein NS1 (MAb 1424), two MAbs are specific for the unique region of minor capsid protein VP1 (MAbs 1418-1 and 1418-16), and one MAb is directed to major capsid protein VP2 (MAb 860-55D). Two MAbs, 1418-1 and 1418-16, which were generated from the same individual have identity in the cDNA sequences encoding the variable domains, with the exception of four base pairs resulting in only one amino acid change in the light chain. The NS1- and VP1-specific MAbs interact with linear epitopes, whereas the recognized epitope in VP2 is conformational. The MAbs specific for the structural proteins display strong virus-neutralizing activity. The VP1- and VP2-specific MAbs have the capacity to neutralize 50% of infectious parvovirus B19 in vitro at 0.08 and 0.73 μg/ml, respectively, demonstrating the importance of such antibodies in the clearance of B19 viremia. The NS1-specific MAb mediated weak neutralizing activity and required 47.7 μg/ml for 50% neutralization. The human MAbs with potent neutralizing activity could be used for immunotherapy of chronically B19 virus-infected individuals and acutely infected pregnant women. Furthermore, the knowledge gained regarding epitopes which induce strongly neutralizing antibodies may be important for vaccine development.     

New concepts in monoclonal antibody based radioimmunodiagnosis and radioimmunotherapy of carcinoma

It is now generally agreed that while numerous monoclonal antibodies (MAbs) have been shown to efficiently target tumors in patients, much still needs to be accomplished to optimize MAb based tumor targeting and the use of MAbs in the therapy of human carcinoma. This article will review some recent studies undertaken in our laboratory in an attempt to generate novel recombinant constructs and test new principles to aid in optimizing MAb based diagnosis and therapy. Three areas will be covered: (a) the analysis of dose fractionation protocols; (b) the generation of recombinant/chimeric (rec/chi) MAbs including the generation of a single chain antigen binding protein (SCA); and (c) the use of recombinant interferons (rec IFNs) to selectively up-regulate tumor antigen expression. Each of these topics has been previously described in detail and appropriate references to these articles are included.     

Detection of multiple antigenically related proteins from various rat tissues by monoclonal antibodies against 3 alpha-hydroxysteroid dehydrogenase.

Mouse hybridomas were prepared by fusing myelomas and spleen cells from mice immunized with purified rat 3 alpha-hydroxysteroid dehydrogenase. Hybridomas secreting monoclonal antibodies against 3 alpha-hydroxysteroid dehydrogenase were selected by indirect enzyme-linked immunoassay and then subcloned by limiting dilution. From two mice we have obtained four positive hybridomas, three secreting high affinity immunoglobulin (Ig) G1 and one secreting IgM. Only two of these monoclonal antibodies (MAbs 3G6 and 7D3, both IgG1) recognized denatured enzyme and, therefore, were used for further immunoblotting experiments. MAb 7D3 recognized a structurally related mouse enzyme, but not the human enzyme, whereas monoclonal antibody 3G6 recognized a human enzyme, but not the mouse enzyme. When these two monoclonal antibodies were used in immunoblotting to survey the expression of 3 alpha-hydroxysteroid dehydrogenase in rat liver and a number of other tissues, striking differences were found in the protein band patterns in kidney, lung, and testis. Both MAbs 7D3 and 3G6 recognized 3 alpha-hydroxysteroid dehydrogenase, a 34-kDa 7D3 recognized a protein of the same size as the liver protein, whereas MAb 3G6 recognized a 34-kDa protein plus another protein of 36 kDa. In kidney only MAb 3G6, but not MAb 7D3, recognized a 34-kDa protein. Conversely, the 34-kDa protein in testis was recognized by MAb 7D3, but not by MAb 3G6. These findings suggest the existence of multiple antigenically related proteins in different tissues.     

Monoclonal antibodies recognizing amino-terminal and carboxy-terminal regions of human aldolase A: probes to detect conformational changes of the enzyme.

Three monoclonal antibodies (MAbs1A2, 3C5, and 4C2) for human aldolase A [EC 4.1.2.13] were established. MAbs1A2, 3C5, and 4C2 were shown to belong to subclasses IgM, IgG1, and IgG2a, respectively. None of the MAbs inhibits aldolase A activity. Their epitopes were mapped in detail on the molecule by examining the reactivities of the MAbs to chimeric proteins between aldolases A and B [Kitajima et al. (1990) J. Biol. Chem. 265, 17493-17498] in ELISA and to the CNBr-cleaved fragments of aldolase A in immuno-blotting. MAbs1A2 and 3C5 reacted with sites located within amino acid residues 306-363 at the C-terminal region of the enzyme. MAb4C2 recognized an epitope of the enzyme present within amino acid residues 34-108 at the N-terminal region. In a competitive binding assay, MAbs1A2 and 3C5 competed with each other for binding to the antigen and also interfered with the binding of MAb4C2, whereas MAb4C2 failed to inhibit the binding of MAbs1A2 and 3C5 to the antigen. MAb3C5 showed a species-specificity in the reaction with the antigen; it reacted with human and rabbit aldolase A with similar reactivity but not at all with the rat and mouse enzymes, which differ from the human and rabbit enzymes in two amino acid residues at positions 328 and 348. Reactivities of MAbs to aldolase A were further examined with engineered enzymes containing an amino acid substitution.(ABSTRACT TRUNCATED AT 250 WORDS)     

Therapeutic Use of Antimelanoma Monoclonal Antibodies

Monoclonal antibodies (MAb) to tumor-associated antigens are attracting much attention for tumor therapy. Melanomas belong to the tumors most studied in this respect, and several melanoma-associated antigens have been studied in great detail. These include the melanoma-associated glycoprotein p97, the melanoma-associated proteoglycan, and glycolipid antigens. Although none of the antigens is absolutely specific for tumor, the degree of relative specificity appears to be sufficient to use several of the melanoma antigens as therapeutic “targets”. Antimelanoma MAb can be applied therapeutically in several ways. The most straightforward approach is use of MAb without further modification. MAb which kill melanoma cells in the presence of human serum as the source of complement or mediate antibody-dependent cellular cytotoxicity with human natural killer (NK) cells or macrophages as effectors are logical choices for this. Some cases of partial or even complete regression of metastatic melanoma have been observed in patients treated with such MAb. Combinations of such MAb with interleukin 2 (IL-2) or other immunological response modifiers are of great interest. Alternatively, one may use antimelanoma MAb (or fragments prepared from MAb) as carriers of antitumor agents, including radioactive isotopes, toxins, or chemotherapeutic drugs. Although it is premature to make any conclusions about the efficacy of such conjugates, we are optimistic that it will be feasible by using the right combination of MAb and antitumor agent to achieve therapeutic benefit. Another approach is to develop therapeutic “vaccines” for active immunization, once an antigen characterized by using a MAb has proven to have a relatively high level of tumor selectively. Anti-idiotypic antibodies and live recombinant viruses inducing tumor antigen expression in infected cells provide alternative strategies to this approach.     

Identification of antibodies against HAI-1 and integrin alpha6beta4 as immunohistochemical markers of human villous cytotrophoblast.

Syncytiotrophoblast and invasive extravillous trophoblast arise from a common stem cell, namely villous cytotrophoblast, but have very different characteristics. The study of the differentiation process relies on the availability of suitable markers for these different cell types of developing placenta. In this work, we have produced monoclonal antibodies that are specific to human villous cytotrophoblast. Monoclonal antibody (MAb) MG2 was specific to villous cytotrophoblast across gestation, and recognizes hepatocyte growth factor activator inhibitor type 1. MAb MD10 stained villous cytotrophoblast across gestation and also some endothelial cells, particularly in the second or third trimester. MAb MD10 recognizes human integrin alpha6beta4. As a test for specificity, the novel MAbs were also used for staining of frozen tissue from human colon carcinoma. The results show that the two antibodies can be used as tools to study human villous cytotrophoblasts and also human tumors. The MG2 antibody seems most specific and promising for the study of various aspects of human villous cytotrophoblast.