Improving the antigen affinity of an antibody Fv-fragment by protein design.

The affinity of an antibody for its ligand 2-phenyloxazolone was improved by protein design. For the design two-dimensional nuclear magnetic resonance spectroscopy, protein engineering and molecular modelling were used in an interactive scheme. Initially the binding site was localized with the help of transferred nuclear Overhauser enhancement signals from two, site specifically assigned tyrosine side-chains in the complementarity-determining regions of the antibody to the ligand 4-glycyl-2-phenyloxazolone. On their basis the hapten was placed into a model of the Fv-fragment built according to the principles of canonical antibody structures. From the model, unfavourable contacts between hapten and an aspartyl side-chain in complementarity-determining region 3 of the heavy chain were predicted. Substitution of the aspartyl residue by alanine resulted in a threefold increase in affinity of the antibody Fv-fragment for two hapten derivatives when compared with the wild-type. Nuclear magnetic resonance analysis of the improved Fv-fragment revealed an interaction between the alpha-carbon proton of alanyl residue with the ligand, which was not seen for the aspartyl residue. This interaction is not entirely in accordance with the model, which predicts an interaction between the side-chain of this residue and the hapten. However, it shows that by combined use of nuclear magnetic resonance analysis and molecular modelling, a residue that is critical for antigen binding was identified, whose mutation allowed the design of an improved antibody combining site.     

Daily variation in circulating lymphocyte counts, T and B proportions and responsiveness to phytohemagglutinin.

Peripheral blood was obtained from six healthy individuals over five consecutive days under uniform conditions and the total lymphocyte counts, T and B proportions, and response to phythohemagglutinin (PHA) were determined. The daily variation in T lymphocytes as measured by the spontaneous sheep erythrocyte (SRBC) assay was much greater when total T concentrations rather than T percentages were compared. There was considerable daily variation in PHA responsiveness and in the percentages of cells bearing Fc and C3 receptors and surface immunoglobulin (SIg). Cryopreservation did not affect the proportions of T and B lymphocytes although it resulted in a significant enhancement of PHA responsiveness following the freeze-thaw procedure. The significance of these results is discussed.     

Control of human B lymphocyte responsiveness: enhanced suppressor T cell activity after in vitro incubation.

Human peripheral blood mononuclear cells (PBM) lost the capacity to generate immunoglobulin-secreting cells (ISC) in response to pokeweed mitogen (PWM) after a period of preincubation in vitro. When fresh PBM were co-cultured with preincubated PBM their response to PWM was inhibited, indicating that enhanced suppressor activity developed in the aged PBM concomitant with the loss of PWM responsiveness. Suppressor cell activity of aged PBM was present within the T lymphocyte population. The suppressor T cell inhibited PWM responsiveness of autologous and homologous PBM to an equivalent degree. The action of the suppressor cell was abrogated by inhibitors of DNA synthesis or by hydrocortisone. A suppressor T cell population with similar characteristics was found in freshly prepared PBM before in vitro incubation. Expansion of this suppressor T cell population during preincubation required cell division. There was no change in the functional capability of the helper T cell population as a result of similar in vitro culture. These observations indicate that a T cell population capable of suppressing PWM-induced generation of ISC can be selectively expanded by in vitro incubation of normal human PBM without additional mitogenic stimulation. Moreover, these data emphasize that control of B lymphocyte differentiation involves a critical interrelationship between T lymphocyte subpopulations exerting both positive and negative influences.     

Kinetics of anti-carcinoembryonic antigen antibody internalization: effects of affinity,bivalency, and stability

Theoretical analyses suggest that the cellular internalization and catabolism of bound antibodies contribute significantly to poor penetration into tumors. Here we quantitatively assess the internalization of antibodies and antibody fragments against the commonly targeted antigen carcinoembryonic antigen (CEA). Although CEA is often referred to as a non-internalizing or shed antigen, anti-CEA antibodies and antibody fragments are shown to be slowly endocytosed by LS174T cells with a half-time of 10–16 h, a time scale consistent with the metabolic turnover rate of CEA in the absence of antibody. Anti-CEA single chain variable fragments (scFvs) with significant differences in affinity, stability against protease digestion, and valency exhibit similar uptake rates of bound antibody. In contrast, one anti-CEA IgG exhibits unique binding and trafficking properties with twice as many molecules bound per cell at saturation and significantly faster cellular internalization after binding. The internalization rates measured herein can be used in simple computational models to predict the microdistribution of these antibodies in tumor spheroids. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Thermodynamic consequences of grafting enhanced affinity toward the mutated antigen onto an antibody. The case of anti-lysozyme antibody, HyHEL-10

In order to address the mechanism of enhancement of the affinity of an antibody toward an antigen from a thermodynamic viewpoint, anti-hen lysozyme (HEL) antibody HyHEL-10, which also recognize the mutated antigen turkey lysozyme (TEL) with reduced affinity, was examined. Grafting high affinity toward TEL onto HyHEL-10 was performed by saturation mutagenesis into four residues (Tyr(53), Ser(54), Ser(56), and Tyr(58)) in complementarity-determining region 2 of the heavy chain (CDR-H2) followed by selection with affinity for TEL. Several clones enriched have a Phe residue at site 58. Thermodynamic analyses showed that the clones selected had experienced a greater than 3-fold affinity increase toward TEL in comparison with wild-type Fv, originating from an increase in negative enthalpy change. Substitution of HyHEL-10 HTyr(58) with Phe led to the increase in negative enthalpy change and to almost identical affinity for TEL in comparison with mutants selected, indicating that mutations at other sites decrease the entropy loss despite little contribution to the affinity for TEL. These results suggest that the affinity of an antibody toward the antigen is enhanced by the increase in enthalpy change by some limited mutation, and excess entropy loss due to the mutation is decreased by other energetically neutral mutations.     

Hepatitis B virus-reactive human T lymphocyte clones: antigen specificity and helper function for antibody synthesis

To study immunity to hepatitis B surface antigen (HBsAg) at the cellular level, lymphocytes were obtained from the peripheral blood of hepatitis B vaccine recipients and were examined for various immune responses to HBsAg in vitro. The peripheral blood mononuclear cells (PBM) from most of the vaccinees did not proliferate to a great extent to HBsAg in vitro. However, HBsAg-reactive lymphocyte lines and clones were obtained from some of these individuals if the PBM were stimulated in vitro with HBsAg and were maintained in the presence of T cell growth supplement. Most of the HBsAg-reactive T cell clones obtained were found to be antigen-specific and some of them provided help in the production of anti-HBsAg antibodies by a cell population enriched for HBsAg-binding cells. These results indicate that HBsAg-specific T and B cells exist in the circulation of hepatitis B vaccine recipients, although they are at limiting concentrations for the in vitro cell proliferation and antibody production assays.     

The incorporation of radioactive uridine into the hepatitis B antigen of a chimpanzee.

Radioactive (3H) uridine was incorporated into RNA isolated from the HBsAg of a chimpanzee carrier. HBsAg was purified by precipitation as an immune complex with the IgG fraction of chimpanzee anti-HBs. RNA was extracted from the washed complex with buffered phenol precipitated with alcohol and four nucleotides were identified by thin layer chromatography after alkali degradation.     

Reversible binding of multivalent antigen in the control of B lymphocyte activation.

A model is proposed describing multiple binding of multivalent antigen to specific receptors of immunocompetent cells. The rate at which these multiple bonds can dissociate and the effective valence of the antigen appear to be of the greatest importance in determining the degree of receptor occupancy at equilibrium. In particular, as antigen concentration decreases, only antigens with high number of determinants per molecule maintain the ability to form multiple bonds even if the dissociation rate is relatively high. Assuming that multiple binding is directly linked to lymphocyte activation, this may result in an inverse relation between antigen valence and ability to induce selection of clones with higher affinities.     

Human B cell responsiveness to B cell growth factor after activation by phorbol ester and monoclonal anti-mu antibody

The effect of phorbol ester on human B cell activation was examined. Picomolar to nanomolar concentrations of phorbol ester induced a high level of proliferation in small IgM-positive B cells isolated from peripheral blood by fluorescence-activated cell sorting. The addition of optimal doses of anti-mu antibody resulted in enhanced proliferation of phorbol ester-activated B cells. The addition of B cell growth factor (BCGF) to phorbol ester-activated B cells also resulted in a dose-dependent synergistic effect and maximal enhancement on day 3. BCGF activity could be absorbed with either phorbol ester- or anti-mu-activated B cells, but not with resting B cells, thus confirming the induction of functional BCGF receptor expression. Cell proliferation was not necessary for the induction of functional BCGF receptors. Phorbol ester was a more efficient inducer of BCGF receptor expression than was anti-mu antibody; gamma-interferon treatment had no effect. BCGF enhanced transferrin receptor expression by phorbol ester-activated B cells. The results suggest that phorbol ester-activated small B cells can be used to monitor BCGF activity, and this synergistic combination may be useful in establishing BCGF-dependent B cell clones in culture.     

Functional properties of lymphocyte subpopulations in hepatitis B virus infection. I. Suppressor cell control of T lymphocyte responsiveness

Hepatocellular injury in hepatitis B virus infection may be produced by an autoaggressive hepatocytotoxic immune response. To test the hypothesis that acquired suppressor cell defects may participate in such a response, we assessed the functional integrity of 2 suppressor cell populations in patients with type B viral hepatitis. Spontaneous suppression of the 1-way mixed lymphocyte response by radiation-resistant, adherent peripheral blood mononuclear cells decreases during the acute phase of disease, returns towards normal with clinical recovery, but remains depressed in patients with chronic hepatitis. The degree of spontaneous suppressor cell dysfunction correlates inversely with at least 1 biochemical parameter of hepatocellular injury (SGPT). The functional integrity of this suppressor cell fluctuates during chronic hepatitis and may reflect currently undefined biologic variables in this disease. Mitogen-induced suppression on lymphocyte activation by radiation resistant, nonadherent suppressor cells is also depressed in acute and chronic hepatitis, but it does not correlate with biochemical evidence of hepatocellular injury on an individual-patient basis. Documentation of these generalized defects of nonspecific suppressor cell function establishes a basis for the possible existence of specific anomalies of immuno-regulation that may permit the expression of normally suppressed auoaggressive hepatocytotoxic immune mechanisms in viral hepatitis.     

Hepatitis B core antigen. Detection of antibody by radioimmunoprecipitation.

Radioactive cores were prepared from concentrated Dane particles by DNA polymerase reaction followed by CsCl density gradient centrifugation. Two radioactive peaks were obtained: one peak with an average density of 1.36 g/cm-3 in CsCl contained cores that possessed full serologic reactivity; the other peak, with a density of 1.28 to 1.32 g/cm-3, contained cores associated with globulin. A double antibody immunoprecipitation test was developed, using the radioactive heavy cores as a source of antigen. The test was at least 300 times as sensitive as complement fixation for detecting antibody to core.     

Repetitive versus monomeric antigen presentation: direct visualization of antibody affinity and specificity

The concept of presenting antigens in a repetitive array to obtain high titers of specific antibodies is increasingly applied by using surface-engineered viruses or bacterial envelopes as novel vaccines. A case for this concept was made 25 years ago, when producing high-titer antisera against ordered arrays of gp23, the major capsid protein of bacteriophage T4 (Aebi et al., Proc. Natl. Acad. Sci. USA, 74 (1977) 5514-5518). In view of the current interest in this concept we thought it useful to employ this system to directly visualize the dependence of antibody affinity and specificity on antigen presentation. We compared antibodies raised against T4 polyheads, a tubular variant of the bacteriophage T4 capsid, which have gp23 hexamers arranged in a crystalline lattice (gp23(repetitive)), with those raised against the hexameric gp23 subunits (gp23(monomeric)). The labeling patterns of Fab-fragments prepared from these antibodies when bound to polyheads were determined by electron microscopy and image enhancement. Anti-gp23(repetitive) bound in a monospecific, stoichiometric fashion to the gp23 units constituting the polyhead surface. In contrast, anti-gp23(monomeric) decorated the polyhead surface randomly and with a 40-fold lower occupancy. These results concur with the difference in titers established by ELISA for the antisera against the repetitively displayed form of antigen (anti-gp23(repetitive)) and the randomly presented antigen (gp23(monomeric)), and they constitute a compelling visual documentation of the concept of repetitive antigen presentation to elicite a serotype-like immune response.