Selective processing of chromogranin A in the different islet cells in human pancreas.

We studied the immunoreactivity of 12 different region-specific antibodies to the chromogranin A (CgA) molecule in the four major neuroendocrine cell types of the human pancreas by using double immunofluorescence techniques. The antibodies raised to the N-terminal and midportions of CgA showed, on the whole, stronger immunoreactivity than did the C-terminal antibodies, with a few exceptions. Often the immunoreactivity was stronger in glucagon cells. Insulin cells expressed immunoreactivity to all region-specific antibodies, but glucagon cells were nonreactive to two antibodies. Somatostatin cells reacted only with the C-terminal antibodies (amino acid sequences CgA 411-424), while PP cells were stained with four CgA region-specific antibodies between amino acid sequences 63-195. The cause of these differences may be that the CgA molecule is cleaved, partly masked, or partly translated from CgA mRNA. Microwave treatment improved only the staining with the CgA 361-372 antibodies, which indicates that masking is not the sole or entire cause. Our findings may indicate that the CgA molecule is cleaved in different ways in the various pancreatic endocrine cell types, giving rise to a variety of biologically functional fragments.     

Region-specific antibodies to chromogranin B display various immunostaining patterns in human endocrine pancreas.

Chromogranin (Cg) B is an acidic glycoprotein present in neuroendocrine tissue. The sequence shows several dibasic amino acid positions susceptible to proteolytic cleavage. The purpose of this study was to elucidate the expression of CgB epitopes in the human endocrine pancreas. Tissue sections of six human pancreata were immunostained with 16 different region-specific antibodies to the CgB molecule, using double immunofluorescence techniques. The CgB epitope pattern varied in the four major islet cell types. B (insulin)-cells expressed immunoreactivity to all region-specific antibodies. The antibodies to the N-terminal and mid-portions of CgB showed moderate immunoreactivity, the C-terminal antibodies weak. A (glucagon)-cells were reactive only to the N-terminal and mid-portion antibodies but, after microwave pretreatment, to all antibodies, whereas D (somatostatin)-cells expressed only the sequence CgB 244-255 and a subpopulation CgB 580-595. PP (pancreatic polypeptide) cells were immunostained with antibodies between CgB 1-417 and a few with CgB 580-593. The fragment CgB 244-255 was expressed in all four cell types. The cause of these differences may be cell-specific cleavage or masking of the molecule, but varying translation of CgB mRNA is also possible. The extent to which these epitopes reflect fragments having biological functions remains to be evaluated.     

Distribution of the intermediate filament nestin in the muscularis propria of the human gastrointestinal tract

The intermediate filament nestin is expressed in neural stem cells, neuroectodermal tumors and various adult tissues. In the gastrointestinal (GI) tract, nestin has been reported in glial cells. Recently, nestin has been reported in interstitial cells of Cajal (ICC) and in gastrointestinal stromal tumors, thought to derive from ICC. Here we investigated nestin immunoreactivity (-ir) in the normal human GI tract, with emphasis on Kit-ir ICC. Two different antibodies specific for human nestin and multicolor high-resolution confocal microscopy were used on material from our human GI tissue collection. The staining pattern of both nestin antibodies was similar. In labeled cells, nestin-ir appeared filamentous. Most intramuscular ICC in antrum and all myenteric ICC (ICC-MP) in small intestine were nestin-ir, while nestin-ir was not detected in deep muscular plexus ICC. In the colon, some - but not all - ICC-MP and most ICC in the circular musculature were nestin-ir while nestin-ir was not detected in ICC in the longitudinal musculature and in the submuscular plexus. In addition, many Kit-negative cells were nestin-ir in all regions. Neurons and smooth muscle cells were consistently nestin negative, while most S100-ir glial cells were nestin-ir. In addition, nestin-ir was also present in some CD34-ir fibroblast-like cells, in endothelium and in other cell types in the mucosa and serosa. In conclusion, nestin-ir is abundantly present in the normal human GI tract. Among a number of cell types, several, but not all, subpopulations of Kit-ir ICC were nestin-ir. The functional significance of nestin in the GI tract remains obscure.     

Application of region-specific immunoassay for human chromogranin A: substantial clue for detection and measurement of chromogranin A in human plasma

Chromogranin A (CgA), a secretory protein, is co-released with catecholamines from storage vesicles. It is known to be elevated in the circulation of patients with neuroendocrine and endocrine tumors. For further investigation of the protein, especially in humans, it is essential to facilitate quantitative analysis of the protein in human biological materials. In order to introduce novel immunological methodology for this purpose, we purposely selected human CgA(344-374) for the synthetic immunogen to produce region-specific CgA antibodies. The anti-synthetic peptide antibody thus obtained made it possible to develop an immunological method for measurement and characterization of CgA in human plasma. The plasma CgA-immunoreactivity (LI) level measured by the method was 0.31+/-0.01 pmol/ml (mean+/-SEM) in normal subjects and 1.55+/-0.29 pmol/ml in pheochromocytoma. On gel chromatography and HPLC analysis of the plasma of patients with pheochromocytoma, the region-specific assay system enabled us to show the presence of N-terminal truncated CgA, besides CgA itself. By following up changes of plasma CgA-LI in a pheochromocytoma patient using samples that were collected consecutively over a two-year period, the present assay system using the region-specific antibody, anti-human CgA (344-374) serum, was confirmed to be extremely valuable for the measurement of CgA-LI in human plasma. The characteristic features and high sensitivity of the present assay system will give us a substantial clue to the detection and measurement of CgA to develop further investigation of the protein in humans.     

New monoclonal antibodies that define multiple epitopes and a human-specific marker on the interleukin 2 receptor molecules of primates

Twelve hybridoma cell lines producing monoclonal antibodies to the human interleukin 2 (IL-2) receptor (IL-2R) molecule were prepared. These antibodies were characterized by competitive antibody-binding assay and sequential immunoprecipitation assay with four known monoclonal antibodies to the human IL-2R molecule. The twelve new monoclonal antibodies were divided among the four known antibody types, the HIEI-, H-A26-, H-31-, and anti-Tac-type, and an additional new type, the H-48-type. The H-48 antibody did not compete with any other antibodies in the competitive binding assay. The binding of 125I-IL-2 to MT-2 cells and the IL-2-dependent growth of normal activated T-cells were both strongly inhibited by all the H-31- and anti-Tac-type antibodies, and partially or slightly inhibited by HIEI- and H-A26-type antibodies, but were not inhibited by the H-48 antibody. Thus, the same type of monoclonal antibodies had a similar effect on the function of IL-2R. These results suggest that epitopes for the same type of antibodies could be single identical epitopes or epitopes closely associated with each other. On the other hand, these antibodies also reacted variously with a panel of various human and simian lymphoid cell lines immortalized with human T-cell leukemia virus type-I (HTLV-I): the H-45 antibody reacted only with the human cell lines, the H-C1 and H-44 and H-47 antibodies reacted with human and ape cell lines, and the other antibodies reacted with cell lines of humans, apes and Old and New World monkeys. These differences in the reactivity of the antibodies with the primate cell lines suggest that the antigenic structure of the IL-2R molecule changed during evolutionary divergence of the primates.     

Accessibility of histone H1(0) and its structural domains to antibody binding in mononucleosomes

This work is devoted to the study of the immunoreactivity of histone H1(0) and its major structural domains in mononucleosomes. Three types of antibody populations were used: (i) anti-H1(0) which reacted with antigenic determinants situated along the whole polypeptide chain; (ii) anti-GH5 which recognized epitopes located in the globular region; and (iii) anti-C-tail antibodies reacting specifically with fragment 99-193 of the protein molecule. The anti-GH5 antibodies gave a weak reaction, the C-tail-specific antibodies reacted relatively strongly and the antiserum to the intact molecule showed an intermediate level of reactivity. The relative intensities of the immunoreaction could be interpreted as reflecting the exposure of the antigenic determinants of the individual protein domains in the monosome particle.     

Production and characterization of monoclonal antibodies against the polyamine,spermine: immunocytochemical localization in rat tissues

Two monoclonal antibodies of types IgG_2b and IgG_2a, anti-spermine-(Spm)-1 (ASPM-1) and anti-Spm-2 (ASPM-2) respectively were found among five clones of murine monoclonal antibodies, which were raised against Spm conjugated with bovine serum albumin via the cross-linker N-(-maleimidobutyryloxy) succinimide (GMBS). Antibody specificity was evaluated by a recently developed ELISA binding test, and led to the study of tissue sections by immunocytochemistry (ICC). ASPM-1 showed exclusive immunoreactivity with Spm, with the exception of a negligible cross-reactivity (2.0%) with spermidine (Spd). ASPM-2, on the other hand, reacted almost equally with acetylspermine (Ac-Spm) and N ¹-acetylspermidine (N¹-Ac-Spd) but with none of the other polyamine-related compounds tested. Complete agreement was obtained with the results of immunoblot analysis. Furthermore, results for antibody specificity obtained with the ELISA inhibition test and ICC model experiments using Sepharose gel beads strongly suggested that ASPM-1 recognizes the Spm molecule possessing at least a free terminal primary amino group, while ASPM-2 recognizes the Spm molecule acylated at both the terminal primary amino groups. An ICC method using ASPM-2 produced strong staining for polyamines (PAs) in the cytoplasm (but very few in the nuclei) of two different tumor cell lines and protein- or peptide-secreting cell systems, including exocrine and endocrine cell types; ASPM-1 showed immunoreactivity only with the tumor cell lines. These results strongly suggest that ASPM-2 may be useful for studies on actively proliferating and neoplastic cells, supporting our previously proposed idea that in immunocytochemistry PAs were converted to a variety of PA derivatives during the fixation process.     

Characterization of anti-TIMP-1 monoclonal antibodies for immunohistochemical localization in formalin-fixed, paraffin-embedded tissue.

The aim of this study was to evaluate seven anti-TIMP-1 (tissue inhibitor of metalloproteinase-1) monoclonal antibodies by immunohistochemical (IHC) staining of formalin-fixed, paraffin-embedded (FFPE) tissue. Detection of the TIMP-1 protein was studied by IHC in FFPE human archival normal and neoplastic samples. Indirect IHC technique was used, and the seven antibodies (clones VT1, VT2, VT4, VT5, VT6, VT7, and VT8) were tested in various concentrations using different pretreatment protocols. All seven VT antibodies specifically immunostained the cytoplasm of islets of Langerhans cells in normal pancreas, epithelial cells of hyperplastic prostate, tumor cells of medullary thyroid carcinoma, and fibroblast-like cells of malignant melanoma. Specificity of the anti-TIMP-1 antibodies was confirmed by several controls, e.g., Western blotting on proteins extracted from FFPE tissue showed that the VT7 antibody reacted specifically with a protein band of approximately 28 kDa, corresponding to the molecular mass of TIMP-1. However, sensitivity varied with the different antibodies. Use of heat-induced epitope retrieval (HIER) and the VT7 clone applied at low concentrations demonstrated more intense immunoreactivity with the TIMP-1-positive cell types compared to the other six clones. Furthermore, when tested on a range of normal and neoplastic endocrine tissues, the VT7 clone demonstrated immunoreactivity with all neuroendocrine cell types. In conclusion, all seven antibodies detected TIMP-1 protein in various normal and neoplastic FFPE tissues, but one clone, VT7, was superior for IHC staining of TIMP-1 in FFPE tissue sections when using HIER.     

A gastrointestinal-specific monoclonal antibody that may be of clinical value in cytologic material

A new monoclonal antibody (MAb), 29-10, produced by immunization of mice with cells from the SW 1116 colorectal carcinoma cell line, detected an antigen present in cytologic touch imprints of surgically resected normal and neoplastic gastrointestinal (GI) tissue, including specimens from the stomach and the colon. These imprints were fixed in 95% ethanol and stained with the avidin-biotin immunoperoxidase technique. In tested cases, 22 (100%) of 22 imprints from GI adenocarcinomas and from normal GI tissue, as well as 13 (56.6%) of 23 imprints from colonic polyps, stained positively while no staining was demonstrable in imprints from other tissues. In histologic sections, only 4 (23%) of 17 colonic adenocarcinomas and 3 (11.5%) of 26 polyps stained positively. The staining ability of MAb 29-10 was compared to that of MAb 19-9, another colorectal antibody, and was found to be markedly superior for binding of the antigen in cytologic preparations. This tissue-specific antibody may be useful in identifying malignant cells of metastatic carcinoma as to their GI tract origin.     

Cellular localization of insulin-degrading enzyme in rat liver using monoclonal antibodies specific for this enzyme

Although insulin-degrading enzyme (IDE) has been implicated in the intracellular degradation of insulin, the cellular localization of this enzyme is still controversial. In the present study, we have examined the cellular localization of IDE in the rat liver by three different techniques using monoclonal antibodies. First, direct immunohistochemical staining of rat liver with one of the monoclonal antibodies revealed that IDE immunoreactivity mainly exists in parenchymal cells, especially in the vicinity of the portal tract and also in the epithelium of the bile duct under light microscopy. In the electron microscopic study, IDE immunoreactivity was found in the cytoplasm near the rough endoplasmic reticulum but not in the plasma membrane, nucleus, or mitochondria. Second, immunoblotting analysis of the subcellular fraction in rat liver showed that the monoclonal antibody specifically reacted with a single polypeptide in the cytosolic fraction, of apparent Mr 110,000, which was consistent with the Mr of IDE. However, a polypeptide band corresponding to IDE could not be observed in the plasma membrane, mitochondrial, or lysosomal fraction. Third, IDE was only detectable in the cytosolic fraction by sandwich radioimmunoassay using two monoclonal antibodies. These results all suggest that IDE is a cytosolic enzyme.     

Production and characterization of monoclonal antibodies specific for the functional domains of poly(ADP-ribose) polymerase

Monoclonal antibodies were developed against poly(ADP-ribose) polymerase and analyzed for their reactivity against the NAD+- and DNA-binding fragments. Two fusions were performed to obtain hybridomas and the resulting anti-poly(ADP-ribose) polymerase antibodies were further screened by characterization of their immunoglobulin light chains. Five different hybridomas were isolated which produced different immunoglobulin light chains, all of which were specific for poly(ADP-ribose) polymerase. The specificities of these antibodies were determined by immunoblotting against the purified poly(ADP-ribose) polymerase, its autodegradation fragments, and the fragments prepared by limited proteolysis with chymotrypsin and papain. These fragments have been suggested to contain the NAD+-binding site, the DNA-binding site, and the automodification site, respectively. All the monoclonal antibodies reacted with the 116 kdalton (kDa) band corresponding to the purified enzyme. Four antibodies reacted exclusively with antigenic site(s) on the 46-kDa fragment which contains the DNA-binding site. A fifth antibody reacted exclusively with a clearly different antigenic site on the 74- and 54-kDa fragments which possess the NAD+ (substrate) binding site. The immunoreactivity with the major autodegradation products (69- and 46-kDa fragments) of the purified enzyme confirms this difference between the two groups of antibodies. The 22-kDa fragment corresponding to the auto-modification site does not show any immunoreactivity with the antibodies.     

Heterogeneity of the blood group ABH antigens and variation in the expression of these antigens of secretory granules in human cervical glands

Summary Cytochemical localization of blood group ABH antigens was examined in secretory cells of human cervical glands by application of a post-embedding lectin-gold as well as immuno-gold labeling procedure using monoclonal antibodies. Blood group specific lectins such as Dolichos biflorus agglutinin (DBA), Helix pomatia agglutinin (HPA), Griffonia simplicifolia agglutinin I-B₄ (GSAI-B₄) and Ulex europaeus agglutinin-I (UEA-I) reacted with secretory granules but not with other cytoplasmic organellae such as nucleus and cell membrane. The reactivity of secretory granules with these lectins showed strict dependence on the blood group and secretor status of tissue donors. The binding patterns with these lectins were not homogeneous, but exhibited marked cellular and subcellular heterogeneity. Thus, for example, in blood group A individuals, some granules were stained strongly with DBA and others were weakly or not at all with the lectin. Such a heterogenous labeling with the lectin was observed even in the same cells. Similar results were obtained with UEA-I and GSAI-B₄ staining in blood group O and B secretor individuals, respectively. Monoclonal antibodies likewise reacted specifically with the granules but they occasionally bound to some nucleus. The labeling pattern of the antibodies with the granules was essentially the same as those of lectins. However, difference was also observed between monoclonal antibody and lectin staining, that is, monoclonal anti-A antibody reacted weakly but consistently with granules from blood group A nonsecretors but DBA (HPA) did not; staining with UEA-I was observed in granules from the secretor individuals of any blood groups whereas monoclonal anti-H antibody reacted with granules from blood group O and some A secretor individuals but not from B and AB secretor individuals; GSAI-B₄ reacted uniformly with granules throughout the cells whereas monoclonal anti-B antibody bound to limited number of granules in the same cells. This was confirmed by the double labeling experiments with the lectin and the antibody. These results suggest that the different types of antigens as to the binding ability for monoclonal antibodies and lectins are expressed on different granules in the same cell.     

Demonstration of immunochemical identity between the nerve growth factor-inducible large external (NILE) glycoprotein and the cell adhesion molecule L1.

The nerve growth factor-inducible large external (NILE) glycoprotein and the neural cell adhesion molecule L1 were shown to be immunochemically identical. Immunoprecipitation with L1 and NILE antibodies of [3H]fucose-labeled material from culture supernatants and detergent extracts of NGF-treated rat PC12 pheochromocytoma cells yielded comigrating bands by SDS-PAGE. NILE antibodies reacted with immunopurified L1 antigen, but not with N-CAM and other L2 epitope-bearing glycoproteins from adult mouse brain. Finally, by sequential immunoprecipitation from detergent extracts of [35S]methionine-labeled early post-natal cerebellar cell cultures or [3H]fucose-labeled NGF-treated PC12 cells, all immunoreactivity for NILE antibody could be removed by pre-clearing with L1 antibody and vice versa.     

New monoclonal antibodies against gastric gland mucous cell-type mucins: a comparative immunohistochemical study

 The immunohistochemical reactivity of monoclonal antibodies raised against rat and pig gastric mucins (HIK1083, PGM36, and PGM37) was investigated in normal gastrointestinal tracts obtained from fish, amphibians, reptiles, birds, and mammals (including humans). These monoclonal antibodies exhibited highly selective reactivity with class III mucins, as identified by paradoxical concanavalin A stain, in the gastrointestinal tract of vertebrates. All three monoclonal antibodies reacted with the mucous neck cells and pyloric gland cells of amphibians, reptiles and mammals, the cardiac glands of reptiles and mammals, and Brunner’s glands of mammls. The deep crypt secretory cells of the rat colon and certain goblet-type cells deep in crypts in the pig colon differed from the above pattern only in that they did not show immunoreactivity with monoclonal antibody PGM36. These data suggest that the development of class III mucin is a fundamental evolutionary characteristic of vertebrate gastric mucins. These monoclonal antibodies should prove useful for the investigation of cell differentiation among gastrointestinal mucous cells and for the biochemical analysis of gastrointestinal mucins in different species. Accepted: 17 February 1998     

Monoclonal antibodies to laminin reveal the heterogeneity of basement membranes in the developing and adult mouse tissues

Two monoclonal antibodies raised against laminin isolated from a mouse parietal yolk sac cell line were used for immunohistochemical studies of basement membranes of the mouse embryo and various fetal and adult tissues. No immunoreactivity with either of the two monoclonal antibodies could be detected in the preimplantation-stage embryos, although it has been shown that these embryos contain extracellular laminin reactive with the conventional polyclonal antilaminin antibodies. Reichert's membrane in early postimplantation stages of development reacted with the monoclonal antibody LAM-I but not with the antibody LAM-II. However, from day 8 of pregnancy onward the Reichert's membrane reacted with both antibodies. Basement membranes of the embryo proper were unreactive with both monoclonal antibodies until day 12 of pregnancy. By day 14 some basement membranes of the fetal tissues became reactive with one or both monoclonal antibodies, whereas others remained still unreactive. In the 17-d fetus and the newborn mouse most of the basement membranes reacted with both monoclonal antibodies, whereas others still reacted with only one. Similar heterogeneity in the immunoreactivity of basement membranes of various tissues was noted in the adult mouse as well. These results indicate that the immunoreactivity of laminin in the extracellular matrix changes during development and that the basement membranes in various anatomic locations display heterogeneity even in the adult mouse.     

Cell of origin of distinct cultured rat liver epithelial cells, as typed by cytokeratin and surface component selective expression

The cell of origin of the nonparenchymal epithelioid cells that emerge in liver cell cultures is unknown. Cultures of rat hepatocytes and several types of nonparenchymal cells obtained by selective tissue dispersion procedures were typed with monoclonal antibodies to rat liver cytokeratin and vimentin, polyvalent antibodies to cow hoof cytokeratins and porcine lens vimentin, and monoclonal antibodies to surface membrane components of ductular oval cells and hepatocytes. Immunoblot analysis revealed that, in cultured rat liver nonparenchymal epithelial cells, the anti-rat hepatocyte cytokeratin antibody recognized a cytokeratin of relative mass (Mr) 55,000 and the anti-cow hoof cytokeratin antibody reacted with a cytokeratin of Mr 52,000, while the anti-vimentin antibodies detected vimentin in both cultured rat fibroblasts and nonparenchymal epithelial cells. Analyses on the specificity of anti-cytokeratin and anti-vimentin antibodies toward the various cellular structures of liver by double immunofluorescence staining of frozen tissue sections revealed unique reactivity patterns. For example, hepatocytes were only stained with anti-Mr 55,000 cytokeratin antibody, while the sinusoidal cells reacted only with the anti-vimentin antibodies. In contrast, epithelial cells of the bile ductular structures and mesothelial cells of the Glisson capsula reacted with all the anti-cytokeratin and anti-vimentin antibodies. It should be stressed, however, that the reaction of the anti-vimentin antibodies on bile ductular cells was weak. The same analysis on tissue sections using the anti-ductular oval cell antibody revealed that it reacted with bile duct structures but not with the Glisson capsula. The anti-hepatocyte antibody reacted only with the parenchymal cells. The differential reactivity of the anti-cytokeratin and anti-vimentin antibodies with the various liver cell compartments was confirmed in primary cultures of hepatocytes, sinusoidal cells, and bile ductular cells, indicating that the present panel of antibodies to intermediate filament constituants allowed a clear-cut distinction between cultured nonparenchymal epithelial cells, hepatocytes, and sinusoidal cells. Indirect immunofluorescence microscopy on nonfixed and paraformaldehyde-fixed cultured hepatocytes and bile ductular cells further confirmed that both anti-hepatocyte and anti-ductular oval cell antibodies recognized surface-exposed components on the respective cell types.(ABSTRACT TRUNCATED AT 400 WORDS)     

Accessibility of histone H1° and its structural domains to antibody binding in extended and folded chromatin

The aim of this work was to study the accessibility of histone H1° and its structural domains to antibody binding in high molecular mass chromatin fragments of different conformations. Three types of specific antibody populations were used: (1) anti-H1° which reacted with antigenic determinants situated along the whole polypeptide chain, (2) anti-GH5 or anti-GH1° which recognized epitopes located in the globular region of H1° and (3) anti-C-tail antibodies reacting specifically with fragment 99–193 of the protein molecule. The immunoreactivity of the chromatin-bound antigen was investigated by solid-phase ELISA performed on glutaraldehyde-cross-linked chromatin and by an inhibition assay carried out with native chromatin in solution. The results of both methods were unidirectional and showed that: (1) the accessibility of H1° did not change with the compaction of the fiber; (2) the G-domain was not accessible to antibodies either in the relaxed or in the condensed state of the fragments, (3) the binding of the C-terminus-specific antibodies was different for isolated monosomes and for the chromatin fiber and (4) the degree of exposure of the epitopes of H1° in chromatin was much less than that of histone H1.Abbreviations ELISA Enzyme-Linked Immunosorbent Assay - G-domain Globular domain - IgG Immunoglobulin G - SDS Sodium Dodecylsulphate     

Antibody-dendrimer conjugates: the number, not the size of the dendrimers, determines the immunoreactivity

Radioimmunotherapy using antibodies with favorable tumor targeting properties and high binding affinity is increasingly applied in cancer therapy. The potential of this valuable cancer treatment modality could be further improved by increasing the specific activity of the labeled proteins. This can be done either by coupling a large number of chelators which leads to a decreased immunoreactivity or by conjugating a small number of multimeric chelators. In order to systematically investigate the influence of conjugations on immunoreactivity with respect to size and number of the conjugates, the anti-EGFR antibody hMAb425 was reacted with PAMAM dendrimers of different size containing up to 128 chelating agents per conjugation site. An improved dendrimer synthesis protocol was established to obtain compounds of high homogeneity suitable for the formation of defined protein conjugates. The quantitative derivatization of the PAMAM dendrimers with DOTA moieties and the characterization of the products by isotopic dilution titration using (111)In/(nat)In are shown. The DOTA-containing dendrimers were conjugated with high efficiency to hMAb425 by applying Sulfo-SMCC as cross-linking agent and a 10- to 25-fold excess of the thiol-containing dendrimers. The determination of the immunoreactivities of the antibody-dendrimer conjugates by FACS analysis revealed a median retained immunoreactivity of 62.3% for 1.7 derivatization sites per antibody molecule, 55.4% for 2.8, 27.9% for 5.3, and 17.1% for 10.0 derivatization sites per antibody but no significant differences in immunoreactivity for different dendrimer sizes. These results show that the dendrimer size does not influence the immunoreactivity of the derivatized antibody significantly over a wide molecular weight range, whereas the number of derivatization sites has a crucial effect.     

Heterogeneity of basement membranes of the human genitourinary tract revealed by sequential immunofluorescence staining with monoclonal antibodies to laminin

We used monoclonal antibodies specific for human laminin to analyze immunohistochemically the heterogeneity of the basement membranes in various parts of the genitourinary tract. By indirect immunofluorescence microscopy we show that antibody 3H11 reacts with all epithelial basement membranes in the kidneys, testes, epididymis, prostate, uterus, oviduct, and ovary, as well as the smooth muscle cells, blood vessels, and nerves. Antibody 4E10 reacted with most epithelial basement membranes in these organs but was unreactive with the basement membranes of peripheral glomerular capillary loops and the basement membranes of the oviductal mucosa, seminiferous tubules, straight tubules, and rete testis. Hilar seminiferous tubules were reactive with 4E10. In contrast to 3H11, which reacted with all vascular, subendothelial, and muscular basement membranes, 4E10 reacted only with the subendothelial basement membrane of capillaries and veins. The difference in the distribution of epitopes could be demonstrated in tissue sections sequentially reacted with two monoclonal antibodies, but only if the antibody of restricted reactivity (4E10) was used first. These data show that the heterogeneous expression of distinct epitopes of laminin in basement membranes can be demonstrated in the same tissue section by sequential staining. This heterogeneity of basement membranes most likely reflects conformational differences in the expression of epitopes on the laminin molecule in various anatomic structures.     

Establishment of an immunoscreening system using recombinant VP1 protein for the isolation of a monoclonal antibody that blocks JC virus infection

Polyomavirus JC (JCV) infection causes the fatal human demyelinating disease, progressive multifocal leukoencephalopathy. Although the initial interaction of JCV with host cells occurs through direct binding of the major viral capsid protein (VP1) with cell-surface molecules possessing sialic acid, these molecules have not yet been identified. In order to isolate monoclonal antibodies which inhibit attachment of JCV, we established an immunoscreening system using virus-like particles consisting of the VP1. Using this system, among monoclonal antibodies against the cell membrane fraction from JCV-permissive human neuroblastoma IMR-32 cells, we isolated a monoclonal antibody designated as 24D2 that specifically inhibited attachment and infection of JCV to IMR-32 cells. The antibody 24D2 recognized a single molecule of around 60 kDa in molecular weight in the IMR-32 membrane fraction. Immunohistochemical staining with 24D2 demonstrated immunoreactivity in the cell membrane of JCV-permissive cell lines and glial cells of the human brain. These results suggested that the molecule recognized by 24D2 plays a role in JCV infection, and that it might participate as a receptor or a co-receptor in JCV attachment and entry into the cells.