Targeting of acute myeloid leukemia in vitro and in vivo with an anti-CD123 mAb engineered for optimal ADCC.

Acute myeloid leukemia (AML) is a biologically heterogeneous group of related diseases in urgent need of better therapeutic options. Despite this heterogeneity, overexpression of the interleukin (IL)-3 receptor α-chain (IL-3 Rα/CD123) on both the blast and leukemic stem cell (LSC) populations is a common occurrence, a finding that has generated wide interest in devising new therapeutic approaches that target CD123 in AML patients. We report here the development of CSL362, a monoclonal antibody to CD123 that has been humanized, affinity-matured and Fc-engineered for increased affinity for human CD16 (FcγRIIIa). In vitro studies demonstrated that CSL362 potently induces antibody-dependent cell-mediated cytotoxicity of both AML blasts and CD34(+)CD38(-)CD123(+) LSC by NK cells. Importantly, CSL362 was highly effective in vivo reducing leukemic cell growth in AML xenograft mouse models and potently depleting plasmacytoid dendritic cells and basophils in cynomolgus monkeys. Significantly, we demonstrated CSL362-dependent autologous depletion of AML blasts ex vivo, indicating that CSL362 enables the efficient killing of AML cells by the patient's own NK cells. These studies offer a new therapeutic option for AML patients with adequate NK-cell function and warrant the clinical development of CSL362 for the treatment of AML.

Human vascular endothelial growth factor B: characterization of recombinant isoforms and generation of neutralizing monoclonal antibodies.

1. The vascular endothelial growth factor (VEGF) family is a focus of interest with respect to novel therapies for cardiovascular disease. Members of this family bind differentially to three receptor tyrosine kinases, namely VEGF-R1, -R2 and -R3, and to the semaphorin receptors neuropilin 1 and 2. The role of VEGF-R1 and the factors that interact exclusively with this receptor (VEGF-B and placenta growth factor) has remained controversial. 2. To further elucidate the role of VEGF-B in blood vessel formation and function, we have expressed, purified and refolded both naturally occurring VEGF-B isoforms and a truncated amino acid 10-108 form. All refolded proteins have been demonstrated to bind to VEGF-R1 with appropriate kinetics in biosensor-based analysis. 3. Robust cell assays for VEGF-R1 ligands, such as VEGF-B, have been problematic. We have developed an assay based on a chimeric receptor consisting of extracellular domains 1-4 of VEGF-R1 and the transmembrane and intracellular domains of gp130. The cell line expresses luciferase to high levels 24 h after exposure to VEGF-A and both refolded VEGF-B167 and the short 10-108 isoform have been demonstrated to be active in this assay. 4. The novel cell-based assay, in combination with a variety of immunochemical approaches, has been used to identify and characterize monoclonal antibodies that neutralize VEGF-B activity.

Purification and refolding of vascular endothelial growth factor-B.

Vascular endothelial growth factor (VEGF)-A interacts with the receptor tyrosine kinases VEGF-R1 and R2, and the importance of this interaction in endothelial cell (EC) function and blood vessel development has been well documented. Other ligands that interact differentially with these receptors and that are structurally related to VEGF-A include VEGF-B, VEGF-C, VEGF-D, and placenta growth factor (PLGF). Compared with VEGF-A, relatively little is known about the biological role of the VEGF-R1 specific ligand, VEGF-B. Two splice variant isoforms that differ at the COOH-terminus and which retain unique solubility characteristics are widely expressed throughout embryonic and postnatal development. Recent analysis of mice with a targeted deletion of the VEGF-B gene has revealed a defect in heart development and function consistent with an important role in vascularization of the myocardium (Bellomo D et al., 2000, Circ Res 86:E29-E35). To facilitate further characterization of VEGF-B, we have developed a protocol for expression and purification of refolded recombinant protein from Escherichia coli inclusion bodies (IBs). The approach developed resolves a number of significant issues associated with VEGF-B, including the ability to heterodimerize with endogenous VEGF-A when co-expressed in mammalian cells, a complex secondary structure incorporating inter- and intrachain disulfide bonds and hydrophobic characteristics that preclude the use of standard chromatographic resins. The resulting purified disulfide-linked homodimer was demonstrated to bind to VEGF-R1 and to compete with VEGF-A for binding to this receptor.

Isolation and characterization of a novel inducible mammalian galectin.

A novel mammalian galectin cDNA (ovgal11) was isolated by representational difference analysis from sheep stomach (abomasal) tissue infected with the nematode parasite, Haemonchus contortus. The mRNA is greatly up-regulated in helminth larval infected gastrointestinal tissue subject to inflammation and eosinophil infiltration. Immunohistological analysis indicates that the protein is localized in the cytoplasm and nucleus of upper epithelial cells of the gastrointestinal tract. The protein is also detected in mucus samples collected from infected abomasum but not from uninfected tissue. The restricted and inducible expression of ovgal11 mRNA and limited secretion of the protein support the hypothesis that OVGAL11 may be involved in gastrointestinal immune/inflammatory responses and possibly protection against infection.

Suppressor of cytokine signaling-3 preferentially binds to the SHP-2-binding site on the shared cytokine receptor subunit gp130.

Suppressor of cytokine signaling-3 (SOCS-3) is one member of a family of intracellular inhibitors of signaling pathways initiated by cytokines that use, among others, the common receptor subunit gp130. The SH2 domain of SOCS-3 has been shown to be essential for this inhibitory activity, and we have used a quantitative binding analysis of SOCS-3 to synthetic phosphopeptides to map the potential sites of interaction of SOCS-3 with different components of the gp130 signaling pathway. The only high-affinity ligand found corresponded to the region of gp130 centered around phosphotyrosine-757 (pY757), previously shown to be a docking site for the tyrosine phosphatase SHP-2. By contrast, phosphopeptides corresponding to other regions within gp130, Janus kinase, or signal transducer and activator of transcription proteins bound to SOCS-3 with weak or undetectable affinity. The significance of pY757 in gp130 as a biologically relevant SOCS-3 docking site was investigated by using transfected 293T fibroblasts. Although SOCS-3 inhibited signaling in cells transfected with a chimeric receptor containing the wild-type gp130 intracellular domain, inhibition was considerably impaired for a receptor carrying a Y-->F point mutation at residue 757. Taken together, these data suggest that the mechanism by which SOCS-3 inhibits the gp130 signaling pathway depends on recruitment to the phosphorylated gp130 receptor, and that some of the negative regulatory roles previously attributed to the phosphatase SHP-2 might in fact be caused by the action of SOCS-3.

Cellular requirements for the activation and proliferation of ruminant gammadelta T cells.

Requirements for the activation and proliferation of gammadelta T cells were investigated. Maximum numbers of gammadelta T cells expressed the IL-2R alpha-chain after 6-h Con A stimulation in peripheral blood, efferent lymph, and afferent lymph. In comparison, IL-2R alpha-chain expression on CD4 T cells only reached maximum levels in response to Con A stimulation in peripheral blood and afferent lymph populations. Analysis of enriched gammadelta T cells demonstrated that Con A-induced expression of the IL-2R alpha-chain was independent of APC. Together, these data suggest that the requirements for gammadelta T cell activation are less stringent than those for alphabeta T cell activation. Unfractionated peripheral blood, efferent lymph, and afferent lymph cell populations proliferated in response to Con A alone. In contrast, enriched gammadelta T cells (CD4/CD8 depleted) from efferent lymph did not proliferate in response to Con A alone, but required the addition of IL-2. This requirement for exogenous IL-2 could be overcome by the addition of dendritic cells purified from afferent lymph. These results suggested that gammadelta T cells required costimulatory signals provided by APC to ensure the production of sufficient IL-2 to drive proliferation. CD28 and CTLA-4 mRNA were detected in efferent lymph and afferent lymph populations containing CD4 and CD8 T cells stimulated with Con A and IL-2 or with Con A alone, respectively. In contrast, negligible levels of these mRNA species were detected in efferent and afferent lymph populations devoid of CD4 and CD8 T cells. These results suggest that ovine gammadelta T cells may use alternative costimulatory pathways.

A homolog of interleukin-10 is encoded by the poxvirus orf virus.

A gene encoding a polypeptide with homology to interleukin-10 (IL-10) has been discovered in the genome of orf virus (OV) strain NZ2, a parapoxvirus that infects sheep, goats, and humans. The predicted polypeptide sequence shows high levels of amino acid identity to IL-10 of sheep (80%), cattle (75%), humans (67%), and mice (64%), as well as IL-10-like proteins of Epstein-Barr virus (63%) and equine herpesvirus (67%). The C-terminal region, comprising two-thirds of the OV protein, is identical to ovine IL-10, which suggests that this gene has been captured from its host sheep during the evolution of OV. The IL-10-like gene is transcribed early. Conditioned medium from COS cells transfected with a eukaryotic expression vector containing the OV IL-10-like gene showed the same biological activity as ovine IL-10 in a murine thymocyte proliferation assay. OV IL-10 is likely to be important in immune evasion by OV, since IL-10 is a multifunctional cytokine that has inhibitory effects on nonspecific immunity and Th1 effector function.

Differential synthesis, cellular localisation and secretion of interleukin-1 alpha interleukin-1 beta from ovine macrophages.

In order to characterise the regulatory processes involved in expression of ruminant interleukin 1 (IL-1) biological activity, we have used specific monoclonal antibodies to assess synthesis, cellular localisation and secretion of ovine IL-1 alpha and IL-1 beta from alveolar macrophages. Immunoprecipitation of IL-1 alpha and IL-1 beta from lysates of macrophages cultured in media alone or media supplemented with lipopolysaccharide (LPS) revealed that both forms of IL-1 were synthesised as precursor proteins of 31-33 kDa. In contrast, both IL-1 species were immunoprecipitated from culture supernatants as 17 kDa molecules. Comparison of the precipitated bands from culture supernatants suggested that significantly more IL-1 beta than IL-1 alpha was secreted by the macrophages. Flow cytometric analysis of IL-1 alpha and IL-1 beta expression by fresh unstimulated macrophages and macrophages cultured for 5 h with LPS demonstrated that a proportion of the cell associated IL-1 alpha, but not IL-1 beta, in stimulated macrophages was expressed at the cell surface. Analysis of IL-1 secretion by cultured alveolar macrophages, using IL-1 alpha and IL-1 beta specific immunoassays, confirmed that IL-1 beta was the predominant secreted species of IL-1. While cell associated IL-1 alpha and IL-1 beta were detected by immunoprecipitation and flow cytometric analysis of macrophages cultured in media alone or media supplemented with LPS, secreted IL-1 beta was detected only after stimulation of macrophages with LPS. This indicates a dissociation of IL-1 beta synthesis and secretion and is indicative of an IL-1 beta converting enzyme similar to that which has been described in the human and mouse models.

Inflammation-induced changes in the phenotype and cytokine profile of cells migrating through skin and afferent lymph.

In the present study, we have localized cytokine-secreting cells within an ectoparasite-induced inflammatory lesion and monitored the phenotype and cytokine profile of cells migrating from the inflammatory lesion to the local draining lymph node via the afferent lymphatics. Interleukin (IL)-8-producing cells were first detected in skin within 6 hr of infection, with increased numbers observed at 24 and 48 hr post infection. While these cells were concentrated within the neutrophil influx, adjacent to disrupted epidermis; they were also found scattered throughout the surrounding dermis in areas where significant cellular infiltration was not apparent. IL-1 alpha- and IL-1 beta-producing cells could not be detected until 24 hr after infection and were restricted to areas of intense neutrophil accumulation. Concurrent with the onset of inflammation was a threefold increase in the total number of cells migrating through the draining afferent lymph. This increase in cellularity was due primarily to increased migration of CD4 and gamma delta T cells. Cytokine mRNA synthesis by migrating afferent lymph cells was examined by reverse transcription-polymerase chain reaction (RT-PCR) analysis of RNA extracted prior to, and at regular intervals during the course of the inflammatory response. IL-1 beta and IL-8, but not IL-1 alpha or IL-6 mRNA, was detected in migrating afferent lymph cells. Tumour necrosis factor (TNF)-alpha-specific mRNA was present in migrating afferent lymph cells at all time points both prior to, and following infection. Soluble IL-8 protein, but not IL-1 alpha, IL-1 beta or TNF-alpha protein, could be detected in lymph, with the amount of IL-8 detected increasing as the infection progressed. mRNA coding for cytokines associated with T-cell activation, such as IL-2, IL-4 or interferon (IFN)-gamma, was also detected in migrating cells, although the cytokine profiles of different experimental animals were extremely variable.

Local cell traffic and cytokine production associated with ectoparasite infection.

This paper reviews recent advances in our understanding of changes in local cellular traffic and cytokine synthesis that occur as a result of infection of sheep with the ectoparasite Lucilia cuprina. Changes in the cellular composition and cytokine profile of infected skin and draining afferent and efferent lymph were assessed using standard approaches and, in addition, a variety of techniques that have only recently become available as a result of advances in ruminant cytokine biology. These include cytokine-specific immunoassay, reverse transcription PCR (RT-PCR) and immunohistology. The initial acute inflammatory response was characterised by the infiltration of polymorphonuclear cells followed by selected lymphocyte subsets into discrete areas adjacent to the site of infection. Analysis of cytokine expression in skin prior to and following infection provided a molecular basis for the observed cellular events. Both cellular and molecular events within the skin were reflected within draining afferent lymph providing a basis for the conclusion that events within the skin (other than antigen uptake and transport) may influence events within the draining node and thus the outcome of the immune response to the parasite. Analysis of cellular and molecular changes in efferent lymph during infection suggested initiation of antigen-specific immunity.

Vaccination of sheep against larvae of the sheep blowfly (Lucilia cuprina).

Four first stage larval antigens from the sheep blowfly were identified using supernatants from cultures of antibody secreting cells. These partially purified larval antigens, when added to Montanide ISA-25 containing recombinant ovine IL-1 beta (rovIL-1 beta) were used to successfully vaccinate sheep against larvae of the sheep blowfly. Significantly less strikes were recorded on vaccinated sheep compared to controls (P < 0.033) with surviving larvae from vaccinated sheep up to 85% smaller than larvae from control sheep. RovIL-1 beta was found to be an important component of the vaccine. Vaccinated sheep showed both humoral and cellular immune responses to the larval antigens. Antibody levels generally correlated directly with delayed-type hypersensitivity (DTH) responses, but neither antibody nor DTH correlated positively with protection in vaccinated sheep. Skin sections removed from individual sheep immediately after challenge revealed aggregations of CD4+, gamma delta-TCR+ and CD1+ cells located directly under the epidermis in vaccinated sheep.

Follistatin concentrations in male sheep increase following sham castration/castration or injection of interleukin-1 beta.

Plasma follistatin (FS) concentrations were determined after castration (n = 5) or sham castration (n = 4) of mature rams. Both treatments resulted in a prolonged increase in FS between 7 and 19 h after surgery, which returned to pretreatment concentrations by 24 h. Tumour necrosis factor-alpha (TNF-alpha), a sensitive maker of an acute-phase response, was undetectable in plasma, indicating that the FS response was not induced by trauma due to surgery. In a second experiment, injection of castrated rams (n = 4) with ovine recombinant interleukin-1 beta, an acute-phase mediator, resulted in a sustained rise in FS concentrations within 4 h of injection. Plasma TNF-alpha concentrations increased transiently within 1 h of interleukin-1 beta injection, indicating that an acute-phase response had been initiated. Plasma follicle-stimulating hormone (FSH) concentrations were significantly decreased at 8 and 24 h after interleukin-1 beta injection, strongly suggestive of an inhibitory effect of increased FS concentrations on the secretion of FSH. Injection of castrated rams (n = 2) with a control preparation of recombinant interleukin-2 did not induce an acute-phase response, and plasma FS and FSH concentrations were unaffected. These data show that the testis is not a major source of circulating FS, that the increase in circulating FS following sham castration/castration is not due to an acute-phase response, but that conversely FS concentrations are modulated by the acute-phase mediator, interleukin-1 beta.

Cytokines as adjuvants for ruminant vaccines.

Successful vaccination against any potential pathogen is critically dependent on inducing an appropriate immune response. The pivotal role of cytokines in the immune response to vaccination suggests that non-protective responses or responses that exacerbate disease subsequent to infectious challenge may be the result of limiting or preferential production of one or a number of these mediators. This suggests that the use of recombinant cytokines as vaccine adjuvants may offer a mechanism whereby the magnitude and phenotype of the immune response to vaccination can be specifically modified. In mice, recombinant cytokines have been used extensively as therapeutics, while studies describing vaccine adjuvant activity are more limited. Recombinant (r) interleukin (IL)-1, IL-2 and interferon (IFN) gamma have been used primarily to enhance humoral responses with enhanced protection assessed where appropriate. Cytokine adjuvant studies in ruminants have been restricted to recombinant ovine (rov) and bovine (rbov) IL-1 and IL-2. In sheep, their application has been optimised with respect to dose, route of delivery and formulation, for induction of humoral and cell mediated immunity (DTH and cytotoxicity) to the model protein antigen (Ag) avidin. The level of adjuvant activity of IL-1 in particular compares favourably to that of a variety of other traditional and new chemical adjuvants and detailed analysis has indicated no adverse local or systemic side-effects. Recent studies in our laboratory demonstrating the effectiveness of rovIL-1 as an adjuvant in single and multi-component bacterial toxoid vaccines, and studies from other laboratories demonstrating the application of rbovIL-1 as an adjuvant for the response in cattle to live attenuated viral vaccines, suggest that rIL-1 may become the adjuvant of choice for diseases where protection is mediated by high levels of circulating antibody (Ab). With respect to helminth parasites, IL-1 may prove useful as a component of vaccines based on "hidden Ags" which rely on induction of Ab. Based on analysis in mouse models of helminth infection, other cytokines such as IL-4 and IL-10 may be appropriate for vaccines based on induction of mechanisms involved in natural immunity.

Parameters related to the application of recombinant ovine interleukin-1 beta as an adjuvant.

This paper describes aspects of the safety and efficacy of recombinant ovine interleukin-1 beta (rovIL-1 beta) as an immunological adjuvant. A dose-response relationship was established using the intramuscular route, and significant adjuvant activity was observed following delivery of 10 or 100 micrograms of the cytokine delivered either in PBS or in combination with alum. Similar doses of rovIL-1 beta also showed adjuvant activity when delivered via the subcutaneous route. In experiments in both mice and sheep, rovIL-1 beta-mediated adjuvant activity was neutralised by a monoclonal antibody (mAb), 3.41, confirming that the adjuvant effect was due to the biological activity of the cytokine. Serum clearance rates and physiological responses to intravenous, intramuscular or subcutaneous administration of rovIL-1 beta in sheep were also determined. RovIL-1 beta was shown to have a serum half-life of 2 min. Transient body temperature increases of 2 degrees C following intravenous or subcutaneous delivery, or 1 degrees C following intramuscular delivery, were observed. White blood cell counts also fluctuated post-injection, which was shown to be due to changes in the number of circulating neutrophils. The action of the neutralising mAb on serum clearance, body temperatures and white cell counts was also determined. Co-injection of rovIL-1 beta with the mAb 3.41 prevented rapid clearance of the cytokine from the serum, and was associated with an extension in elevated body temperature. The mAb appeared to have no significant influence on the white blood cell profile induced following injection with rovIL-1 beta.

Humoral and cellular responses induced by intradermally administered cytokine and conventional adjuvants.

Serum antibody responses to the model protein antigen avidin were monitored in sheep following intradermal injection of avidin formulated with a range of commercially available and experimental adjuvants, including muramyl dipeptide (MDP), aluminium hydroxide gel (alum), recombinant ovine interleukin1 beta (rovIL-1 beta), rovIL-1 beta + alum, Quil A + alum or Emulsigen Plus. The highest antibody responses were recorded for animals immunised with avidin in rovIL-1 beta + alum, Quil A + alum or Emulsigen Plus, with moderate responses resulting from use of rovIL-1 beta or alum alone as adjuvants. Lower antibody responses to avidin were recorded when avidin was administered alone or with MDP. Delayed-type hypersensitivity (DTH) responses to avidin indicated that the most pronounced cellular response occurred in animals immunised with rovIL-1 beta + alum. Local cellular changes induced after primary and secondary intradermal injections indicated that distinct patterns of cellular recruitment were induced by the different adjuvants. Avidin with MDP resulted in an elevation of CD4+ T cells in the upper dermis while Emulsigen Plus induced an infiltration of large numbers of neutrophils throughout the dermis and reticular layers. CD4+, CD8+ and gamma delta + T cells increased in number and were found evenly distributed throughout these regions. Alum-based adjuvants resulted in the development of distinct cellular accumulations comprising primarily CD4+ T cells and CD45R + B cells arranged in distinct foci in the reticular layer. These cells were strongly class II positive as were the majority of macrophage like cells surrounding the foci. Staining for factor VIII related antigen indicated the presence of endothelial venules in the T and B cell foci and surrounding tissues.

Cloning and characterisation of an ovine interleukin-10-encoding cDNA.

Expression of the interleukin 10-encoding (IL-10) mRNA by ovine (ov-) cells, in response to mitogenic stimulation, was assessed by Northern blot and polymerase chain reaction (PCR) analyses using a human (hu) IL-10 cDNA probe and oligodeoxyribonucleotide primers based on homologous regions of the human and murine IL-10 cDNA sequences. A 315-bp cDNA generated by the PCR analysis was cloned and used to screen a lipopolysaccharide-stimulated alveolar ov-macrophage cDNA library. The full-length ov-cDNA sequence isolated translates to a protein of 177 amino acids (aa) with a predicted 18-aa leader sequence and molecular mass of 20,165 Da. Expression in a mammalian system demonstrated that the ov-cDNA encoded a protein with the expected IL-10 biological activity. Both recombinant huIL-10 and supernatants from COS cells transfected with an expression vector containing the ovIL-10 cDNA inhibited production of IL-1 and tumour necrosis factor-alpha by ov-alveolar macrophages. Genomic DNA analysis indicated ovIL-10 exists as a single gene within the ov-genome.

Cloning and expression of a cDNA encoding ovine interleukin 7.

Using the polymerase chain reaction (PCR) and primers based on regions of homology between the human and murine interleukin 7 (IL-7)-encoding cDNAs, we have amplified an ovine (ov) IL-7 cDNA from reverse-transcribed RNA extracted from concanavalin A (Con A)-activated ovine lymph-node cells. The nucleotide sequence of the cDNA and the predicted amino acid (aa) sequence showed significant homology to those of the human and murine molecules. The ovIL-7 cDNA encodes a 176-aa polypeptide that, based on analysis of murine IL-7, is processed to a protein of 151 aa. The cDNA was demonstrated to encode a protein with IL-7 biological activity. Supernatants from COS or CHO-K1 cells transfected with an expression vector containing the ovIL-7 cDNA were able to synergise with a suboptimal level of Con A to induce proliferation of ovine thymocytes. In addition, both supernatants were able to induce thymocyte proliferation, albeit at a reduced level, in the absence of Con A. Further experiments demonstrated that for induction of ovine thymocyte proliferation, recombinant (re)-ovIL-7 was able to synergise with re-human (h) IL-2 but not re-hIL-6 or tumor necrosis factor-alpha (re-hTNF alpha).

Cytokine mRNA expression in skin in response to ectoparasite infection.

Cellular infiltration and local cytokine mRNA levels were examined during the first 48 h of infection of skin by larvae of the sheep blowfly Lucilia cuprina. At the cellular level the response involved a dramatic influx of leucocytes (CD45+ cells). Among these infiltrating cells were large numbers of granulocytes, including neutrophils and eosinophils, as well as macrophage-like cells and lymphocytes. Many of the lymphocytes expressed cell surface markers characteristic of T cells including CD4, CD8 and the gamma delta TCR. The numbers of each of these cell types increased progressively as infection continued so that by 48 h the lesions were densely populated. Expression of mRNA for IL-6 could be detected by Northern blot analysis while mRNA for other inflammatory cytokines including IL-1 alpha, IL-1 beta, IL-8 and TNF alpha was detected using the polymerase chain reaction. Coincident with the influx of granulocytes and other cells there was an increase in the level of mRNA for the cytokines IL-1 alpha, IL-1 beta, IL-6 and IL-8. In the skin of the sheep there appeared to be constitutive expression of message for the cytokines IL-1 beta, IL-6 and TNF alpha, with the level of the latter not found to increase during the 48 h of infection examined. In situ hybridization was used to determine the location of IL-6 and TNF alpha mRNA within resting and infected skin. During infection, fibroblasts, macrophage-like cells and endothelium appeared to produce high levels of IL-6 mRNA. Expression of the T cell dependent cytokines IL-2 and IFN-gamma but not IL-4, increased in expression as time progressed and the population of infiltrating cells, including T cells, expanded.

Development of a sandwich immunoassay for the detection of soluble ovine IL-2R alpha chain.

Following T cell activation with antigen or mitogens, there is an up-regulation of interleukin-2 receptor alpha (IL-2R alpha) chain expression. A high proportion of the IL-2R alpha chain is shed from the surface of the T cell in a soluble form following proteolytic cleavage, and thus determination of soluble IL-2R alpha (sIL-2R alpha) chain is an excellent measure of lymphocyte activation. A sandwich immunoassay for the detection of ovine sIL-2R alpha chain has been developed. Three monoclonal antibodies (mAbs) with specificity for the IL-2R alpha chain, demonstrated by immunoprecipitation of a 50 kDa protein from an ovine IL-2R alpha chain cDNA transfected Chinese hamster ovarian (CHO IL-2R) cell line, were analysed for additive and competitive binding to CHO IL-2R cells and Concanavalin A (Con A) activated ovine lymphocytes, respectively. Two non-competitive ovine IL-2R alpha chain specific mAbs were then used in a sandwich immunoassay to detect native sIL-2R alpha chain in the supernatant (SN) of Con A activated ovine lymphocytes and recombinant sIL-2R alpha chain in the SN of CHO IL-2R cells. Soluble IL-2R alpha chain could also be detected in complex biological fluid. In the efferent lymph of a cannulated ovine popliteal lymph node (LN), an increase in the level of sIL-2R alpha chain following local alloantigen LN activation was observed. This increase correlated with an increase in the output of activated T cell blasts.