The present study investigated the peripheral blood mononuclear cells (PBMC) blastic responses to PHA, PHA plus recombinant IL-2 (rIL-2) and rIL-2 alone; the expression of membrane-bound IL-2R on PHA-stimulated PBMC; and the levels of IL-1 alpha, IL-2, IL-6, and sIL-2R in serum and in culture supernatants from PHA-stimulated PBMC in 17 patients with with non-Hodgkin's lymphoma (NHL), 4 with Hodgkin's lymphoma (HL), 5 with Hairy cell leukemia, 1 with chronic myelogenous leukemia, and 1 with chronic lymphocytic leukemia. The patients with HL and NHL with active disease (AD) were separated from those in clinical remission. The patients with AD were studied at diagnosis (obviously before therapy) and the patients in clinical remission were out of therapy since at least 6 mo. The lymphocyte blastogenic response to PHA was significantly lower in patients with HL and NHL with AD than in the control group. The response to rIL-2 alone was in the same range in the control group and in HL and NHL AD patients. By adding rIL-2 to PHA there was an increase of the blastogenic response of the same patients. The percentage of CD25 expressed on PHA-stimulated lymphocytes from patients with HL and NHL AD and from normal subjects is in the same range. Serum levels of IL-2, IL-6, and sIL-2R were significantly higher in HL and NHL AD patients than in controls as well as in all other hematological malignancies. Supernatants derived from PHA-stimulated PBMC were assessed for the presence of cytokines and sIL-2R by ELISA. The levels of IL-2, IL-6, and sIL-2R were significantly lower in HL and NHL AD patients than in controls as well as in all other hematological malignancies.

Preclinical cancer vaccine studies must address vaccine safety, immunogenicity, and efficacy, as well as mechanism of vaccine action. Animal models of vaccines employing human tumor-associated antigen or epitopes (TAA, TAE) differ fundamentally from those employing tumor-specific antigens or epitopes (TSA, TSE). TSA and TSE vaccines will most likely demonstrate similar toxicity, immunogenicity, and efficacy in both tumor-bearing animals and patients. In contrast, TAA/TAE immunizations may have to overcome a host's immunological tolerance to TAA/TAE expressed not only on tumor, but also on normal tissues; immunity to TAA/TAE will potentially target normal tissues and thus may induce autoimmunity. Various experimental models for human-derived TAA/TAE vaccines have been developed. These models include transgenic mice, mice with severe combined immunodeficiency (SCID), and non-human primates. Recently, unique animal models of TAA/TAE cancer vaccines have been developed, taking advantage of the discovery of animal tissue antigens with significant sequence homologies to human TAA/TAE. These models mimic perhaps most closely the situation in cancer patients.

Recombinant antibody fragments binding with high affinity to their target can be obtained either from hybridomas or directly from antibody libraries on filamentous phage. These fragments are devoid of any activity other than antigen binding, and have to be processed and functionalized in order to be suitable for clinical applications. This article presents the authors' view on the procedures and the features that are important for effective transformation of recombinant antibodies into useful immunotherapeutic agents. The topics presented include phage display methodologies, engineering of high-affinity binding, purification, and functionalization strategies of recombinant antibodies.

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 (alpha H7) 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 radio-sensitive tissues, i.e., bone marrow and intestine, thus improving efficiency in radioimmunoscintigraphy and radioimmunotherapy.

Two antibody single-chain Fv (scFv) fragments carrying five C-terminal histidine residues were expressed in Escherichia coli as periplasmic inclusion bodies. Their variable heavy (VH) and light (VL) domains are derived from the mouse monoclonal antibody 215 (MAb215), specific for the largest subunit of RNA polymerase II of Drosophila melanogaster and rat MAb Yol1/34, specific for pig brain alpha-tubulin. ScFv-215 contains an additional cysteine residue near to its C-terminus. After solubilization of inclusion bodies followed by immobilized metal affinity chromatography (IMAC) in 6M urea and a renaturation procedure, scFv monomers, noncovalent dimers, and aggregated antibody fragments were separated by size exclusion chromatography. In addition, a fraction of disulfide-bonded scFv-215 homodimers (scFv')2 was also isolated. The various antibody forms appear to be in equilibrium after renaturation since first peak composed mainly of aggregates could be resolved into a similar pattern of aggregates, dimers, and monomers after repeating the denaturation/renaturation procedure. All fractions of the recombinant scFv-215 demonstrated high antigen-binding activity and specificity as shown by enzyme-linked immunosorbent assay (ELISA) and Western blot analysis. Affinity measurements carried out by competitive immunoassays showed that covalently linked (scFv')2 have binding constants quite close to those of the parental MAbs and fourfold higher than scFv' monomers. ScFv derivatives, specifically biotinylated through the free sulfhydryl group, recognize the corresponding antigen in ELISA and Western blot analysis, thus demonstrating the possibility of using chemically modified scFv antibodies for immunodetection.

In this article the authors discuss an indirect system for redirecting cellular cytotoxicity, which utilizes a "universal" bispecific antibody to redirect T-cells to kill cells targeted with single-chain Fv (sFv) fusion proteins that carry a peptide tag recognized by the bispecific antibody. This approach has a number of theoretical advantages in the immunotherapy of cancer.

Earlier studies described the linkage of silver to antibodies using SH groups generated by the reduction of the SS groups using ascorbic acid (1) analogous to the Thakur and DeFulvio technique for linking technetium to antibodies. This work describes the linkage of silver to IgG after introducing SH groups by coupling the IgG to 2-imino thiolane. The protein was dissolved in sodium acetate buffer pH 4.5 containing 1 mM EDTA by dialysis/gel chromatography in a concentration of 20 mg/mL. 2-Imino thiolane dissolved in Tris-HCl acetate buffer, pH 8.2, 0.2M was added to give a final dilution of 0.2 mM 2-imino thiolane. The excess of 2-imino thiolane was removed by dialysis or G-25 Sephadex gel chromatography and then the protein was reacted with silver nitrate 0.1 mM. The unreacted SH groups were blocked by adding iodoacetamide to a concentration of 5 mM. The nonprotein reagents again were removed by dialysis or gel chromatography. The thiol groups were titrated using 1.5 mM 2 2-Py-SS-Py prior to and after addition of silver. It was observed that depending on the concentration of silver, 50-80% of the SH groups were coupled to silver. Higher concentrations of silver led to insoluble precipitates and should be avoided.

The nm23 gene product is one of several possible mediators of cancer invasion and metastasis. As the amounts of nm23-H1 mRNA and gene product are reduced in metastatic lymph nodes from patients with papillary carcinoma of the thyroid, we examined the expression of nm23 gene product in 115 thyroid cancers, 78 ovarian cancers, 63 breast cancers, and metastatic lymph node tissues by immunohistochemistry. It was found that nm23-H1, but not nm23-H2 gene product, was expressed in primary sites of thyroid, ovarian, and breast cancers, except for medullary and anaplastic carcinomas of the thyroid, but expressed only weakly or poorly in metastatic lymph nodes. Although nm23-H1 gene product expression was lower in anaplastic and medullary carcinomas of the thyroid, there was no significant difference in nm23-H1 gene product expression among histological types of ovarian and breast cancers. Our data indicate that the nm23-H1 gene product may play a role in metastasis in these hormone-producing organs and that other factors may be involved in metastasis of anaplastic and medullary carcinomas of the thyroid.

The murine monoclonal antibody (MAb) 425 (mMAb 425) directed against the human EGFR (epidermal growth factor receptor) was reshaped (rMAb 425) in order to improve its therapeutical potential in humans. The pharmacokinetic properties of [125I]-mMAb and [125I]-rMAb 425 were compared in three animal species. Whereas the clearance curves of both antibodies decreased biphasically in rats and nude mice bearing human mammary carcinoma, a monophasic decline was observed in Cynomolgus monkeys. Plasma elimination half-lives of murine and reshaped MAb 425 were similar, short in the monkey (26 h for mMAb 425 and 31 h for rMAb 425) and long in rats (240 h for mMAb 425 and 225 h for rMAb 425). In xenografted nude mice however, the half-life of mMAb 425 (203 h) was about twice as long as that of rMAb 425 (124 h). The half-lives of intact rMAb 425 in the three species obtained by ELISA differed at most by a factor of two from those obtained by radioactivity measurements. Biodistribution studies of [125I]-rMAb 425 revealed a tumor/blood ratio of 1.2 on d 1 and 5.1 on d 18, respectively. Fifty-four and thirty-eight percent of the radioactive dose were excreted with urine in nude mice (within 12 d) and rats (within 11 d), respectively. Specific localization of [125I]-rMAb 425 in human mammary carcinoma xenografted to nude mice was demonstrated.

Corneal cryopreservation requires that endothelial cells remain viable and intercellular structure be preserved. High viability levels for cryopreserved endothelial cells have been achieved, but preserving intercellular structure, especially endothelial attachment to Descemet's membrane, has proved difficult. Cell detachment apparently is not caused by ice, suggesting osmotic or chemical mechanisms. Knowledge of the permeation kinetics of cryoprotectants (CPAs) into endothelial cells and stroma is essential for controlling osmotic and chemical activity and achieving adequate tissue permeation prior to cooling. Proton nuclear magnetic resonance (NMR) spectroscopy was used to assess the permeation of dimethyl sulfoxide (DMSO) into isolated rabbit corneas. Corneas with intact epithelia were exposed to isotonic medium or 2.0 mol/L DMSO for 60 min and subsequently transferred to 2.0 or 4.0 mol/L DMSO, respectively, at 22, 0, or -10 degrees C. DMSO concentration in the cornea was measured vs time. The Kedem-Katchalsky model was fitted to the data. Hydraulic permeability (m3/N.s) is 7.1 x 10(-13) + 216%-11% at 22 degrees C, 8.2 x 10(-13) + 235%-21% at 0 degree C, and 1.7 x 10(-14) + 19%-16% at -10 degrees C. The reflection coefficient is 1.0 + 2%-1% at 22 degrees C and 0 degree C, and 0.9 +/- 5% at -10 degrees C. Solute mobility (cm/s) is 5.9 x 10(-6) + 6%-11% at 22 degrees C, 3.1 x 10(-6) + 12%-11% at 0 degree C, and 5.0 x 10(-8) cm/s + 59%-40% at -10 degrees C.