Characterization and properties of antisubstance P anti-idiotypic antibodies

Use of DNA immunization to produce polyclonal antibodies against the native human neurokinin-1 receptor for substance P

Antibodies against the native form of the human NK1 receptor (hNK1R) for the neuropeptide substance P (SP), an important immunoregulator, are difficult to produce using classical immunization techniques. We show here that mice immunized with a plasmid harboring hNK1R cDNA developed antibodies recognizing extracellular epitopes of native hNK1R expressed on CHO cell membranes, as shown by FACS and immunofluorescence analysis, some antibodies being specifically directed against the second extracellular loop (E2) of the receptor. This original strategy, DNA immunization, thus efficiently generated new immunological tools to further analyse the role of SP in the regulation of immune cell functions.

Antigen mimicry by anti-idiotypic antibodies: study of interactions between complementary surfaces in macromolecules

Anti-idiotypic antibodies were obtained from New Zealand White rabbits injected with affinity-purified rabbit anti-TrpR antibodies. In gel mobility shift studies, such immunoglobulin preparations were shown to contain one or more species able to form specific complexes with DNA molecules bearing a trp operator. In competitive ELISA assays, the binding of anti-idiotypic antibodies to operator-bearing DNA was reversed by TrpR. The demonstration that the immune repertoire contains information for operator-specific DNA-binding proteins may be relevant to the etiology of certain autoimmune diseases.

Molecular mimicry by antiidiotypic monoclonal antibody to gonadotropin releasing hormone

Antipeptide and antiidiotypic antibodies to several receptors are known to mimic their respective ligands in transducing signals on binding their receptors. In our attempts to study gonadotropin releasing hormone receptor, antipeptide and antiidiotypic monoclonal antibodies specific to the receptor were established earlier. The antipeptide mAb F1G4 was to a synthetic peptide corresponding to the extracellular domain of human GnRH receptor and the antiidiotypic mAb 4D10C1 was to the idiotype of a GnRH specific mAb. Here we report the physiological effects of the two mAbs on binding the receptor, as investigated using in vitro cultures of (a) human term placental villi and (b) rat pituitaries. The mAb 4D10C1 exerted a dose-dependent release of human chorionic gonadotropin in cultures of human term placental villi as well as luteinising and follicle stimulating hormones in cultures of rat pituitaries.

Substance P receptor immunodetection in the spinal cord: comparative use of direct anti-receptor antibody and anti-complementary peptide antibody

The immunolocalization of substance P (SP) receptors was compared in the rat spinal cord using either a direct anti-substance P NK1-receptor antibody (anti-SPR) or an anti-complementary peptide antibody (anti-CP). The first antibody recognizes an intracellular epitope, the C-terminal tail of the NK1-receptor. The second antibody recognizes an extracellular epitope located at or near the ligand-binding domain because anti-CP antibody and SP were previously shown to compete for binding to the receptor. At the light microscope level, it was observed that anti-CP antibody labels both laminae I and II of the dorsal horn, while anti-SPR antibody labels exclusively lamina I, except at the lumbar level. This could suggest that spinal NK1 receptors are heterogeneous. Anti-SPR antibodies may recognize an NK1 receptor subclass confined to lamina I. Conversely, anti-CP antibody may recognize either another receptor subclass or two different subclasses present in laminae I and II. At the electron microscope level, labeling was localized either on the intracellular or the extracellular face of the plasma membrane depending on the location of the epitope recognized by both antibodies on the transmembrane receptor. However, using either antibody, the ultrastructural labeling was found at non-junctional sites, suggesting that SP may act in a non-synaptic manner on all putative receptor subclasses.

A monoclonal antibody to the ligand-binding domain of the neurokinin 1 receptor (NK1-R) for the neuropeptide substance P

Monoclonal antibodies to the binding site of the NK1 receptor for the neuropeptide substance P were produced in mice using the complementary or antisense peptide methodology. Among several anti-peptide monoclonal antibodies, we selected the mAb12 antibody which specifically crossreacted, through its paratope, with a binding site present on membranes from rat parotid gland cells, with an affinity close to 2 x 10(-7) M and with membranes from CHO cells expressing human brain NK1 receptors. Immunocytochemical investigations using mAb12 revealed immunostaining whose distribution in the dorsal horns of rat spinal cord fits well with the known location of NK1 receptors. In both biochemical and immunocytochemical experiments, the competition occurring between the antibody and substance P, or a substance P-protein conjugate, indicates that mAb12 recognizes a membrane epitope located at or near the substance P binding domain on the NK1 receptor. Immunization of mice with mAb12 led to the production of specific anti-substance P antibodies, again suggesting that mAb12 shares common structural features with the neuropeptide. This monoclonal antibody can now be used in further biochemical or cytochemical characterizations of NK1 receptors. Owing to its fine specificity, mAb12 could also serve as a molecular model for designing peptides, possibly displaying pharmacological properties in the various processes in which substance P is involved, e.g. immunomodulation, inflammation or chronic pain.

Ultrastructural study of substance P receptors in the dorsal horn of the rat spinal cord using monoclonal anti-complementary peptide antibody

A monoclonal antibody directed against a peptide (PS5) specified by RNA complementary to the mRNA coding for substance P (SP), was used to label SP receptors in the rat spinal cord as demonstrated by light and electron microscopy. An immunocytochemical method (avidin-biotin-peroxidase) was used on vibratome sections from rats perfused with paraformaldehyde. Immunoreactivity was observed principally in the two superficial layers of the dorsal horn, in lamina X and the region of motoneurons. The labeling was absent when the antibody was preincubated with the complementary peptide (PS5) used as immunogen. Competition between the anti-complementary peptide antibody and different ligands was tested by preincubation of tissue sections with the ligand in the presence of peptidase inhibitors before addition of the antibody. A specific agonist (SP) or antagonist (spantide, RP 67580) at 10(-6)M led to total absence of labeling. These results indicate that under our experimental conditions, the anti-complementary peptide antibody recognizes a SP binding site in the rat spinal cord. Electron microscopic study of the two superficial laminae of the dorsal horn showed that immunolabeling was mainly localized extracellularly at apposing neuronal plasma membranes. It was mostly associated with axodendritic or axosomatic appositions. Occasionally labeling was observed between two axon terminals. In all cases, these appositions were non-junctional. Generally, neuronal processes involved in these appositions did not contain large granular vesicles. These observations suggest that SP may act in a diffuse, nonsynaptic manner probably on targets distant from SP release sites.

Detection of putative dopamine receptors in neurites outgrowing from locust central nervous system explants using anti-idiotypic dopamine antibodies

Organotypic cultures established from the third thoracic ganglion of locust embryo have been used to investigate dopamine receptors. In this in vitro system, neurites emerge directly from the explants and form a dense network around the explants, presenting cell surface freely exposed for experimental labelling. Polyclonal anti-idiotypic antibodies raised in rabbits to antibodies against dopamine conjugate, and previously found to bind to dopamine receptors, have been used to investigate putative dopamine receptors in these neurites. Immunocytochemical detection by light microscopy employing immunofluorescence labelling, was correlated with electron microscopy, using peroxidase staining. In addition to a location for dopamine receptors on the neurite surface, intracellular binding sites were also found in neurites. This internal labelling might represent an intracellular pool of dopamine receptor precursors. The labelling was specific in that it was not present when the anti-idiotypic dopamine antibodies were replaced with non-immune serum or when preincubation with conjugated dopamine preceded incubation with anti-idiotypic dopamine antibodies.

A monoclonal anti-idiotypic 'internal image' antibody that recognizes the A1 adenosine receptor potentiates the alpha 1-adrenergic activation of phospholipase C in primary cultures of mouse striatal astrocytes

To determine which subtype of adenosine receptor mediates the potentiating effect of 2-chloroadenosine on the noradrenaline-induced inositol-phosphate formation, we used the monoclonal anti-idiotypic antibody AA1 that acts as an 'internal image' of adenosine and specifically recognizes the A1 adenosine receptor. In cultured mouse striatal astrocytes, AA1 increased the noradrenaline-evoked inositol phosphate (IP) accumulation, thus demonstrating a biological activity of an anti-idiotypic antibody. This effect was inhibited by PACPX, a selective A1 antagonist. Inhibitors of phospholipase A2 activity prevented the potentiation. These results establish the involvement of A1 adenosine receptors in the modulation of phospholipase C activity.

Anti-idiotypic and anti-anti-idiotypic responses to a monoclonal antibody directed to the acetylcholine receptor binding site of curaremimetic toxins

Serotherapy, an approach currently used to protect humans against animal bites or stings, is often too specific. To broaden antiserum paraspecificity, use of antibodies directed against areas shared by all members of a toxin family was previously proposed. MST2 is a mAb that recognizes all long-chain curaremimetic toxins (Charpentier et al. (1990) J. Mol. Recog. 3, 74-81). It binds to toxin residues that make contact with the toxin's target, e.g., the nicotinic acetylcholine receptor (AcChoR). We now show that MST2 also recognizes (-) nicotine, an agonist of AcChoR. Binding properties of MST2 therefore mimick, at least partially, binding properties of AcChoR. Injection in rabbits of MST2 mixed with adjuvant, elicited anti-idiotypic (anti-Id) antibodies that inhibited binding of the toxin to AcChoR. A proportion of these anti-Id antibodies specifically bound AcChoR and thereby mimicked the toxin. Furthermore, rabbits immunized with MST2 elicited auto-anti-anti-Id antibodies capable of binding the toxin. Our data provide a molecular explanation for the previously reported signs of myasthenia gravis as triggered by antibodies raised against cholinergic antagonists. Implications in the design of antisera to toxic proteins are discussed.

Anti-substance P anti-idiotypic antibodies modulate the secretory process in the rat parotid gland in vitro

Anti-idiotypic antibodies (anti-Id) obtained in rabbits in response to immunization with polyclonal anti-substance P antibodies (anti-SP) were shown to bind specifically and with high affinity to membranes from rat parotid gland cells. Whereas substance P (SP) was unable to displace anti-Id from membrane binding sites, anti-Id partly inhibited the binding of radiolabelled substance P. Like substance P, anti-Id were able to trigger protein secretion by parotid cells i.e. to behave as physiological agonists of the neuropeptide. Under our experimental conditions, the biological effects of both ligands appear to be additive. Unlike substance P, however, anti-Id did not potentiate the secretory response induced by a beta-adrenoceptor agonist. Taken together, the present results might indicate that anti-Id interact with epitope(s) at or/and near the peptide-combining site on the substance P receptor. These data demonstrate further the possibility of raising pharmacologically active anti-receptor antibodies through the immunological anti-idiotypic approach.

Use of anti-idiotypic antibodies as probes for in vitro and in vivo identification of substance P receptor

In order to develop immunological tools for studying the receptor of the neuropeptide substance P (SP), anti-idiotypic antibodies (anti-Id abs) were produced by immunization with anti-SP antibodies whose specificity was close to that of the SP receptor. Immunological studies revealed structural similarity between some anti-Id abs and SP itself. As a consequence, these anti-Id abs were able to bind to mammalian SP receptors. These antibodies were used in immunocytochemistry to label SP receptors both in the rat spinal cord and in rat and guinea pig peripheral tissues (parotid gland and trachea, respectively). Like SP, anti-Id abs were able to trigger protein secretion by isolated rat parotid gland cells. Finally, it was shown that anti-Id abs in vivo modulated reactivity to chemical stimuli. These antibodies therefore appear to be promising tools for further biochemical, cytochemical, and pharmacological characterization of SP receptors.