Passive administration of antibodies during the primary immunization. The influence on the secondary response

Groups of mice were injected with different quantities of sheep red blood cells (SRBC: 10⁸, 10⁹ and 10¹⁰) and simultaneously with different quantities of antibodies against SRBC. The response was tested 15 and 30 days after the primary dose and 4 days after the secondary response. The action of antiserum regulates the quantity of antigen available for the immunization process. With a large dose of antiserum it is possible to inhibit the primary, as well as the secondary response. A smaller dose of antiserum suppresses primary antibody formation but the process of preparing the secondary response is not inhibited. An inhibitory dose of antiserum injected 24 and 48 hours after antigen significantly depresses the primary response but is followed by a pronounced secondary response. When the antigen is bound 24 and 48 hours after the primary stimulus, the secondary response is only of the 19S type. If the antigen is present at least 72 hours after the primary dose of antigen cells forming 7S antibodies appear also in the secondary response. Experimental data support the hypothesis that there is a common precursor cell for the 19S and 7S Ab-forming cell; during limited proliferation the cellular basis for the 19S secondary response and with intensive proliferation (only after 6 or 7 generations) the precursors for 7S antibody forming cells, appear. Dedicated to Academician Ivan Málek on the occasion of his 60th birthday     

Effect of X-radiation and 6-MP on the secondary antibody response

The course of the secondary response in mice and rabbits immunized with sheep red cells and treated with X-rays or 6-mercaptopurine during the primary or secondary response was studied. X-irradiation or the administration of 6-MP during the primary reaction did not suppress preparation for a secondary reaction in mice, while in rabbits it did. The differences in these results are attributed to differences in metabolic activity, i.e. in the rate of recovery of the function of the lymphatic tissue, in the two species. The secondary reaction in mice was completely inhibited if they were irradiated when the proliferation phase following the primary stimulus had ended, e.g. six months after primary immunization.     

Purification and chemical characterization of antigens from sheep erythrocytes

A mixture of glycoproteins and glycolipids was solubilized from sheep erythrocytes membranes under the effect of high ionic strength (2 M NaCl, 0.5 M Tris). Several antigenic fractions could be purified from the mixture using gel filtration on Sephadex G-200 and block electrophoresis on Pevikon C870; two fractions were found to raise antibodies in a primary reaction and these antibodies effectively sensitized erythrocytes to lysis by complement. The majority of other fractions elicited a weaker primary reaction which was detectable by both agglutination and haemolysis. The fraction, migrating fastest towards the cathode, elicited after immunization a formation of antibodies that could be detected almost exclusively by haemagglutination. The fraction, which elicited in the primary reaction a high titre of haemolytic antibodies, is composed of 72% proteins, 11% lipids and 15% saccharides.     

Secondary responsein vitro to antigen ΦX 174 phage

In a model secondary reactionin vitro, a correlation was demonstrated between the size of the antigen dose used for the prestimulation of spleen tissue donors and the type of antibodies formed in the anamnestic reaction. After a small dose of antigen ΦX 174, the antibody response three days after prestimulation was of the 19 S (IgM) type, but later secondary contactin vitro (after four months) did not produce a 19 S anamnestic reaction. After large primary doses of antigen, a short interval between primary and secondary contact led to the formation of 19 and 7 S type antibodies, while after a long interval only 7 S (IgG) type antibodies were formed. The results are discussed in relation to differences in the size of the antigen dose needed to induce short-term 19 S and long-term 7 S immunological memory.     

Erythrocyte antigen: isolation, biochemical and immunologic properties]

The authors suggest a simple method of obtaining erythrocytic antigen in considerable amounts. This antigen is of stromal origin, contains from 10 to 20% protein, and is relatively homogenous. With the concentration of from 1 to 50 microgram by protein the preparation represents a transparent solution; with greater concentrations the antigen is white, turbid, but is well dissolved and convenient for administration to the animals. In case of a single administration without any adjuvants the antigen is highly immunogenic in low doses by protein. To the optimal immunizing dose of erythrocytes (5 X 10(8)) correspond about 100 microgram of the antigen by protein. The primary response to the antigen is similar to the response to sheep red blood cells (SRBC). It is exceedingly effective for the formation of immunological memory. The level of secondary responses in the adoptive transfer to all the EAG doses always exceeded the secondary response to SRBC. By adding EAG into agar during the local hemolysis in gel test determined the avidity of the antibodies synthesized at various periods of the immune response to SRBC.     

Effect of a typhoid lipopolysaccharide on the primary and secondary immunological response to ram erythrocytes

The effect of typhoid bacterial lipopolysaccharide (LPS) on the primary and secondary response to sheep red blood cells was studied. LPS, injected simultaneously with the antigen, stimulated the synthesis of IgM and IgG, as well as the production of rosette-forming cells. When injected on days 2 and 3 after the secondary immunization, LPS induced the maximum stimulation of IgM, IgG and rosette-forming cells, while the injection of LPS prior to immunization induced immunosuppression which particularly affected IgG and rosette-forming cells.     

The effect of substance P on the regional lymph node antibody response to antigenic stimulation in capsaicin-pretreated rats

The undecapeptide substance P (SP) contained in primary afferent nerves is thought to mediate that part of the neurogenic inflammatory response consisting of vasodilation and plasma extravasation. This response is diminished in rats pretreated as neonates with the neurotoxin capsaicin. It is not known whether primary afferent nerves influence cellular responses of the immune response to antigenic stimulation. Using 6- to 12-wk-old Sprague-Dawley rats pretreated as neonates with capsaicin, we examined the regional lymph node response to a s.c. antigenic stimulus of sheep red blood cells. The number of cells secreting antigen-specific antibody in these animals was reduced by more than 80% using direct and indirect plaque assay methods. The reduced antibody response in capsaicin-pretreated animals was reversed by a s.c. infusion of SP given over a 4-hr period at the injection site immediately after antigen stimulation. This response had a threshold at approximately 1.0 X 10(-5) M SP. SP1-7 (1.0 X 10(-5) M) was without effect but an infusion of SP5-11 (1.0 X 10(-5) M) reversed the effects of capsaicin treatment indicating a carboxyl-terminal effect of SP. The results suggest that the reduced response of capsaicin-treated animals to an antigenic stimulus is due to an effect of capsaicin on the SP-containing primary afferent nerves rather than a toxic effect of capsaicin on the immune system.     

Ontogenetic development of antibody formation in response to different doses of gram-negative microorganisms in young rabbits

Rabbits at different stages of development were immunized with different doses of heatinactivated suspension ofEscherichia coli 086 andSalmonella paratyphi B. The dynamics and the site of formation of bactericidal and haemolytic antibodies during the primary reaction was investigated. An increase and an acceleration of antibody formation after increasing the dose of antigen was found in the serum and at the cellular level. The magnitude of the response and the rate of the reaction were directly proportional to the age of the experimental rabbits. The site of antibody formation depends on the character, route of administration, antigen dose and age of rabbits. After intraperitoneal and also after intravenous immunization withEscherichia coli andSalmonella paratyphi B antigens the site of antibody production in 15-day-old rabbits was the lymphatic tissue of the intestine, the appendix, and mesenteric lymph nodes. As the antigen dose was increased and the age of rabbits rose, i.e. in correlation with the increase of the antibody response, antibody formation shifted to the spleen which is the chief site of antibody production following immunization by these bacterial antigens from the first month of life of rabbits. In contrast with this type of antigen, after intraperitoneal or intravenous immunization with sheep erythrocytes of new-born or older rabbits antibody formation was concentrated in the spleen. The development of the immunological competence and the significance of intestinal lymphatic tissue as one of peripheral type is discussed.     

Effect of doxycycline on immune response in a multifactorial experiment]

Multifactorial analysis was applied to studies on the effect of doxycycline on the primary immune response to sheep erythrocytes. The experimental factors were the following: the antibiotic dose, the antigen dose and the time of the onset of the antibiotic therapy with respect to the antigen action. Polynomial statistic models describing the delayed hypersensitivity and antibody titers within wide ranges of factor values were designed by the experimental data. It was shown that the prophylactic use of doxycycline prior to the antigenic stimulus markedly lowered the high-dose tolerance induced by high doses of the antigen.     

Secondary delayed-type hypersensitivity to sheep red blood cells in mice: a long-lived memory phenomenon

Immunization of mice with sheep red blood cells (SRBC) can induce the capacity to react with a secondary delayed-type hypersensitivity (DTH) immune response upon a booster injection of the antigen. In this paper the kinetics of secondary DTH after intravenous (iv) immunization with various doses of SRBC was studied by means of the foot swelling test. Dose-response studies showed that maximal secondary DTH responsiveness was obtained by iv administration of a priming dose of 3 × 10⁴ SRBC and a booster dose of 3 × 10⁵ SRBC 2 months later. Secondary DTH in such treated mice was characterized by an earlier appearance of the state of DTH, an earlier peak reactivity, and an increased intensity of the DTH response as compared to the primary DTH response. Up to 1 year after priming, a secondary DTH could be elicited, indicating the long-lived character of this memory phenomenon. With increasing intervals between the priming and booster injection, a gradual shift to a later time, of the peak secondary DTH reactivity was found. The capacity of primed mice to react with an increased intensity upon a booster injection could be adoptively transferred into lethally irradiated recipients by means of spleen cells obtained from primed mice. This phenomenon appeared to be highly dependent on Thy 1.2⁺ cells and on the booster dose of SRBC. The DTH reaction, evoked in such recipients, showed a prolonged time course.     

The number of immunologically activated cells after repeated immunization (A mathematical model)

Using a mathematical model, the effect of the dose of antigen and of the rate of its elimination on the number of immunologically activated cells, derived from a single immunocompetent cell, that are prepared for the change into antibody-producing cells under the condition that further antigenic stimulus takes place, was studied. The following results were obtained under certain assumptions that are explained and discussed in our present work: (1) The shape of the dependence of the number of immunologically activated cells afterk-fold immunization on the immunizing dose and the rate of elimination of antigen was established. (2) In studies on the influence of the magnitude of a single antigen dose on the readiness for the secondary reaction (expressed as the number of immunologically activated cells present at the time of injection of the secondary antigen dose), we found that with increasing antigen dose the number of immunologically activated cells increases until it reaches its peak at the optimum antigen dose; then a decrease starts to occur. The range of doses of antigen causing approximately similar (and high) readiness for the secondary response is broader with antigens that are eliminated faster from the organism. (3) A method for the estimation of the optimum dose of antigen and of the number of persisting immunologically activated cells after this antigen dose is presented. This method can be used provided certain knowledge concerning the particular experimental system is available.     

Tolerance-like condition developing in mice under the effect of antigen of erythrocyte lysate]

Lysate of sheep red blood cells obtained by the treatment of these cells with distilled water and purified by ultracentrifugation in cold possessed a weak immunogenicity. Its administration to mice caused the state of hyporeactivity to sheep red blood cells (a reduction of the immune response level to 10-25% of control. The capacity of the mise spleen cells to respond by immune reaction to the red blood cells following adoptive transfer was not disturbed. At the early periods after the lysate administrations the mouse spleen cells possessed a weak supressive activity in case of their transfer to the intact animals. The blood serum of mice treated with the lysate possessed a blocking activity which disappeared after the serum absorption with sheep red blood cells. A conclusion was drawn that hyporeactivity originating in mice after the lysate administration was caused by the presence in the serum of antibodies inhibiting the immune response.     

The secondary antibody response induced in tissue cultures

The conditions for induction of memory cells (B-MC) and evocation of the secondary antibody (Ab) response in tissue cultures (TC) were estimated.(1) In vivo primed B-MC cells were isolated 6–150 d after priming and stimulated in TC with different doses of sheep red blood cell (SRBC) antigen. The Ab response has a strict time and dose dependence: only small doses (10⁵) evoke a secondary response, high doses (10⁸, 10⁹) a state of immediate tolerance. (2) Antigen added to TC directly with B-MC rescued their Ab production for a long period. Addition of the antigen 1 or 2 d after setting the TC, follows the Ab-response decay, comparable with virgin cells (B-ICC). (3) Primed B-MC stimulated in TC responded preferentially with an IgM secondary response; the same cell suspension adoptively transferred into isologous recipients switched into IgG cells. (4) Virgin, immunocompetent, B-ICC were primarily stimulated in TC with a small dose of antigen (10⁵ SRBC); after 7 d of cultivation the cells were transferred into isologous recipients, SCID mice and into TC. In all cases, the secondary response of IgM was determined, 10 times higher than in the primary controls.     

Further studies on amplification of cell-associated immunological memory by secondary antigenic stimulus.

Using the hapten-carrier system in which the dinitrophenyl group (DNP) served as a B cell reactive hapten and bovine serum albumin (BSA) or human gammaglobulin (HGG) as a T cell reactive carrier, changes in the hapten-specific memory (B cell-associated memory) and the carrier-specific memory (T cell-associated memory) after a secondary antigenic stimulus were analyzed in mice. Since an immunological adjuvant was indispensable in the induction of the primary increase in memory, antigen used for the primary antigenic stimulus was injected together with the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) which has already been shown to exhibit a potent adjuvant effect. With the cell-transfer technique, it was found that the cell-associated hapten-specific memory for anti-DNP antibody response to DNP-BSA was truly amplified by the secondary injection of DNP-HGG into mice primed with DNP-HGG, and that the cell-associated carrier-specific memory as judged by the helper effect on anti-DNP response to DNP-BSA was also truly amplified by the secondary injection of BSA into mice primed with BSA. However, when memory was assessed in actively immunized mice, the secondary injection of BSA into mice primed with DNP-BSA and HGG decreased anti-DNP responsiveness to the tertiary injection of DNP-BSA, whereas the secondary injection of DNP-HGG secondarily increased anti-DNP responsiveness. In mice primed with DNP-BSA the titers of serum antibodies to BSA increased after the secondary injection of DNP-BSA or BSA. From these results it has been concluded that, like B cell-associated memory, T cell-associated memory is also amplified by a secondary antigenic stimulus, although its expression is inhibited in actively immunized mice through negative control by their antibodies.     

Combinations of two synthetic adjuvants: synergistic effects of a surfactant and a polyanion on the humoral immune response

Synergistic effects of two synthetic adjuvants, dimethyldioctadecylammonium bromide (DDA) and dextran sulfate (DXS) on the humoral response to sheep red blood cells (SRBC) were investigated. Mice received intraperitoneal (ip) injections of adjuvant and antigen simultaneously. The number of plaque-forming cells (PFC) in the spleen were determined 5 days later and circulating anti-SRBC antibodies were measured till 16 weeks after immunization. Although combinations of DDA and DXS were very effective in enhancing the PFC response to both moderate (2 X 10(7] and low (2 X 10(6] doses of SRBC, synergy between the adjuvants was only observed at the low dose of SRBC. Optimal augmentation of the primary response to the low antigen dose was evoked by the combination of the highest dose tested of either adjuvant (1 mumol DDA and 1 nmol DXS) resulting in a 560-fold increase of the number of PFC in the spleen as compared to controls. Even combinations of relatively small amounts of both adjuvants were very effective in augmenting the response to SRBC. Mice receiving half the amounts of both adjuvants with 2 X 10(6) SRBC displayed increased numbers of PFC in the spleen at Day 5 as well as increased titers of total anti-SRBC antibodies at Week 1 and Week 2 and 2-mercaptoethanol-resistant antibodies from Week 4 till Week 16 as compared to the calculated sum of responses in mice which received either DDA (0.05 mumol per mouse) or DXS (0.05 nmol per mouse). The mechanism behind the synergy between these adjuvants is discussed and the possibility of discerning adjuvants on their modes of action is suggested.     

Patterns of the forming of an immunologic memory to staphylococcal corpuscular antigen

The experiments carried out on inbred mice have revealed that the level of the immunological memory to staphylococci depends on the intensity of the antigenic stimulation; high priming dose of antigen proving to be the most effective one. The opposite character of immune responsiveness observed during primary antibody response to particulate staphylococcal antigen in C3H and A/Sn mice increased after the second immunization. It is established that immunological memory to staphylococci may be induced in genetically athymic mice. Many antibody-forming cells are found in the bone marrow of the secondary immunized mice. This phenomenon may be due to the repopulation of the bone marrow tissue by recirculating memory cells.     

The primary immune response of brown trout (Salmo trutta) to injection with cellular antigens

The primary immune response of brown trout ( Salmo trutta L.) was studied after injections of two cellular antigens– Salmonella typhi H, flagellar antigen d, and human group 'O'Rh+ red blood cells. Both intraperitoneal and intramuscular injections were employed. Agglutinins and complement–fixing antibodies were produced to S. typhi and haem–agglutinins to human 'O' red blood cells. Maximum titres to S. typhi were reached after 49 days in the case of both agglutinins and complement-fixing antibody. Haem-agglutinins reached a maximum value of 1 : 512 between 35 and 42 days. Haemagglutinins to human 'O' red blood cells were detected as early as 7 days after injection. Antibodies against S. typhi were found after 14 days. Natural haemolysins were present against horse, sheep and human groups 'A', 'B' and 'AB' but not with group 'O'. No natural haemagglutinins were present to the six types of red blood cells tested. No precipitins were detected to either S. typhi or human 'O' red blood cells by immunodiffusion.     

Role of mediators of cellular hypersensitivity in the stimulation of the antibody formation to unrelated antigen

The effect of a concurrent delayed hypersensitivity reaction on the antibody response to sheep red cells was assessed by a plaque assay. Guinea pigs with delayed hypersensitivity to tuberculin purified protein derivative (PPD) or egg albumin showed an increased antibody response to sheep red cells when the cells were injected intravenously at the same time as PPD or egg albumin. This effect was transferred to normal guinea pigs by serum from guinea pigs with delayed hypersensitivity to PPD or egg albumin taken 24 hr after injecting the corresponding antigen. Supernatants containing migratory inhibitory factor were prepared by incubating lymphocytes from sensitized rabbits with antigen. These supernatants were injected with sheep red cells and gave rise to an enhanced plaque response. Similar results were obtained with supernatants from normal rabbit thymus cells. The role of mediators of delayed hypersensitivity in enhancing antibody formation and in T cell/B cell cooperation is discussed.     

Accumulation of eosinophils and monocytes in lymphoid organs of chick-embryos. I. Effect of antigenic stimulation.

The effect of antigenic stimulation on the migration pattern of eosinophils and monocytes was studied during the embryonic stage in chickens. On the 13th embryonic day, chickens were injected with sheep red blood cells as antigen into the allantoic cavity and the relative frequency of oxidase positive cells (OPC) was determined as the total number of eosinophils and monocytes in the bursa of Fabricius, spleen, and thymus. Three and five days after the antigenic stimulation, the frequencies of OPC increased in both the spleen and thymus and then decreased to the normal level just before hatching. However, bursal frequencies of OPC were always low in both the cortex and medulla when compared with the controls. These events indicated that eosinophils and monocytes accumulated in the spleen and thymus after the antigenic stimulation. Furthermore, different frequencies of OPC among the embryonic lymphoid organs showed different responses in the migration of eosinophils and monocytes.     

Latex bread technique for detection of the plaque-forming cell response to teratocarcinoma tumor antigens

Summary A latex bead technique modified for measuring the plaque-forming cell (PFC) response to teratocarcinoma tumor antigens in syngeneic animals is described.With this method one can detect both the primary (IgM) and the secondary (IgG) immune response to tumor antigens. Optimal detection of the PFC response depends on the proper ratio of sheep red blood cells to latex beads and the dose of tumor cell antigen used for immunization. The presence of fetal calf serum interfered with immunization of animals and the coating of the latex beads with the tumor cell antigens. The plaques obtained in response to immunization with teratocarcinoma cell antigens varied in size, probably reflecting the complex immune response to more than one class of antigens on tumor cells.