scholarly journals CRYSTALLINE PNEUMOCOCCUS ANTIBODY

1949 ◽  
Vol 32 (6) ◽  
pp. 705-724 ◽  
Author(s):  
John H. Northrop ◽  
Walther F. Goebel
Keyword(s):  
Ammonium Sulfate ◽  
Horse Serum ◽  
Insoluble Fraction ◽  
Rabbit Serum ◽  
Type I ◽  
Type Ii ◽  
Serum Globulin ◽  
Saturated Ammonium Sulfate ◽  
Diphtheria Antitoxin ◽  
Specific Polysaccharide

1. The immune precipitate formed by antipneumococcus horse serum and the specific polysaccharide is not hydrolyzed by trypsin as is the diphtheria toxin-antitoxin complex, and purified pneumococcus antibody cannot be isolated by the method used for the isolation and crystallization of diphtheria antitoxin. 2. Type I pneumococcus antibody, completely precipitable by Type I polysaccharide, may be obtained from immune horse serum globulin by precipitation of the inert proteins with acid potassium phthalate. 3. The antibody obtained in this way may be fractionated by precipitation with ammonium sulfate into three main parts. One is insoluble in neutral salts but soluble from pH 4.5 to 3.0 and from pH 9.5 to 10.5. This is the largest fraction. A second fraction is soluble in 0.05 to 0.2 saturated ammonium sulfate and the third fraction is soluble in 0.2 saturated ammonium sulfate and precipitated by 0.35 saturated ammonium sulfate. The second fraction can be further separated by precipitation with 0.17 saturated ammonium sulfate to yield a small amount of protein which is soluble in 0.17 saturated ammonium sulfate but insoluble in 0.25 saturated ammonium sulfate. This fraction crystallizes in poorly formed, rounded rosettes. 4. The crystallization does not improve the purity of the antibody and is accompanied by the formation of an insoluble protein as in the case of diphtheria antitoxin. 5. None of the fractions obtained is even approximately homogeneous as determined by solubility measurements. 6. Purified antibody has also been obtained by dissociating the antigen-antibody complex. 7. The protective value of the fractions is quite different; that of the dissociated antibody being the highest and that of the insoluble fraction, the lowest. 8. All the fractions are immunologically specific since they do not precipitate with Type II polysaccharide nor protect against Type II pneumococci. 9. All the fractions give a positive precipitin reaction with antihorse rabbit serum. The dissociated antibody gives the least reaction. 10. Comparison of the various fractions, either by their solubility in salt solution or through immunological reactions, indicates that there are a large number of proteins present in immune horse serum, all of which precipitate with the specific polysaccharide but which have very different protective values, different reactions with antihorse rabbit serum, and different solubility in salt solutions.

scholarly journals THE INFLUENCE OF INFLAMMATION ON THE ABSORPTION OF SUBSTANCES OF VARIED DIFFUSIBILITY

1938 ◽  
Vol 67 (4) ◽  
pp. 619-641 ◽  
Author(s):  
Rose G. Miller
Keyword(s):  
Peritoneal Cavity ◽  
Subcutaneous Tissue ◽  
Horse Serum ◽  
Type I ◽  
Phenol Red ◽  
Serum Globulin ◽  
Egg Albumin ◽  
Specific Polysaccharide ◽  
Phenol Blue ◽  
Pneumococcus Type

1. Inflammation retards the absorption of horse serum globulin and crystalline egg albumin from the peritoneal cavity and subcutaneous tissue, but retardation of the absorption of crystalline egg albumin is less than that of globulin, which is less diffusible. 2. Inflammation retards the absorption of the specific polysaccharide of pneumococcus Type I from the peritoneal cavity; inflammation may accelerate, but does not hinder, the absorption of glucose from the peritoneal cavity. 3. Inflammation retards the spread of trypan blue in the skin, but accelerates absorption from the skin of the more diffusible dye, brom phenol blue. 4. Phenol red is excreted in the urine with equal rapidity after injection into normal and into inflamed subcutaneous tissue or into normal and into inflamed peritoneal cavities. Direct extractions of phenol red from inflamed subcutaneous sites indicate that inflammation accelerates the absorption of the dye from these areas. 5. Inflammation retards the absorption of the indiffusible proteins, carbohydrates and dyes; it tends to accelerate the absorption of the diffusible carbohydrates and dyes.

scholarly journals STUDIES ON IMMUNOLOGICAL RELATIONSHIPS AMONG THE PNEUMOCOCCI

1929 ◽  
Vol 49 (2) ◽  
pp. 183-193 ◽  
Author(s):  
John Y. Sugg ◽  
James M. Neill
Keyword(s):  
Horse Serum ◽  
Rabbit Serum ◽  
Type I ◽  
Type Ii ◽  
Immunological Relationship ◽  
The Individual ◽  
Relationship Of ◽  
Convincing Data

The paper reports evidence of an immunological relationship between one variety of Saccharomyces ceremsise and the Type II variety of Diplococcus pneumonix (Pneumococcus). The most convincing data consisted of the reactions of the Type II bacteria with potent antiyeast serum which agglutinated, and protected mice against these pneumococci as well as the average antiserum obtained by immunization of rabbits with Type II bacteria themselves. The reactivity of the antiyeast serum is strictly specific to the Type II variety of Pneumococcus in the sense that it is entirely devoid of antibodies reactive with Type I or III. The results of absorption experiments with both the antiyeast (rabbit) serum and the anti-Type II (horse) serum were the same as those usually obtained in analogous experiments with immunologically related, but not identical, kinds of bacteria. The immunological relationship of the yeast and the Type II pneumococcus is apparently based upon S-anti-S reactions. It represents an example of heterogenetic specificity which is of particular interest because of the wide genetic separation of the pathogenic schizomycete and the saprophytic ascomycete. Data on the individual irregularity in the yeast-agglutinating capacity of serum from non-immunized or "normal" rabbits are presented as experimental facts.

scholarly journals ENHANCEMENT OF THE OPSONIZING AND AGGLUTINATING POWERS OF ANTIPNEUMOCOCCUS SERUM BY SPECIFIC PRECIPITATING SERUM

1920 ◽  
Vol 32 (3) ◽  
pp. 283-293 ◽  
Author(s):  
Ida W. Pritchett
Keyword(s):  
Horse Serum ◽  
Test Tube ◽  
Immune Serum ◽  
Rabbit Serum ◽  
Normal Rabbit Serum ◽  
Type I ◽  
Type Ii ◽  
Normal Horse Serum ◽  
Serum Type

1. No demonstrable antiopsonins are formed in rabbits following the intravenous injection of monovalent pneumococcus horse sera, Types I, II, and III. 2. The serum of rabbits injected with immune pneumococcus horse serum, Type I, II, or III, or with normal horse serum, when mixed in the proportion of 1:4 with Type I or Type II pneumococcus horse serum, can greatly augment, in vitro, the opsonization and agglutination of Type I and Type II pneumococci by the homologous immune horse sera. No similar effect is obtained with Type III serum and pneumococci. 3. The increase in opsonization and agglutination is dependent upon (a) specific sensitization of the pneumococci by the homologous immune serum and (b) the presence of the precipitating serum. In the absence of sensitization, as when a heterologous or normal horse serum is employed, opsonization and agglutination do not occur, even though a precipitating mixture is provided. The substitution of normal rabbit serum for the precipitating rabbit serum gives opsonization and agglutination in dilutions slightly higher than are effected with salt solution only, due possibly to the more favorable medium created for the leucocytes by the addition of 25 per cent of whole rabbit serum. 4. Different methods of combining the immune horse serum, precipitating rabbit serum, and pneumococci yield very similar results, preliminary sensitization of the bacteria before precipitation, or precipitation in the rabbit-horse serum mixture before the addition of the pneumococci for sensitization causing little if any difference in result from that obtained when immune horse serum, precipitating rabbit serum, and pneumococci are all mixed and incubated together. 5. This increased opsonization in the test-tube does not seem to be paralleled by increased protective power, or at any rate such protection is not readily demonstrated.

scholarly journals SPECIFIC ANTIBODY RESPONSE OF HUMAN SUBJECTS TO INTRACUTANEOUS INJECTION OF PNEUMOCOCCUS PRODUCTS

1932 ◽  
Vol 55 (6) ◽  
pp. 853-865 ◽  
Author(s):  
Maxwell Finland ◽  
W. D. Sutliff
Keyword(s):  
Human Subjects ◽  
Type I ◽  
Type Ii ◽  
Specific Antibody Response ◽  
Specific Antibodies ◽  
Virulent Strains ◽  
Before And After ◽  
Specific Polysaccharide ◽  
Protective Antibodies ◽  
Intracutaneous Injection

The blood of 63 human subjects selected because of the absence of recent infections, was studied for its content of specific antibodies against virulent strains of Types I, II, and III pneumococci before and after intracutaneous injections of minute amounts of pneumococcus products. The simultaneous injection of the specific polysaccharides of all three types of pneumococci and of proteins and autolysates derived from Types I and II pneumococci was followed by the appearance or increase of pneumococcidal power in the whole defibrinated blood and, in most instances, by the appearance of mouse-protective antibodies and agglutinins for one or more types. A single intracutaneous injection of 0.01 mg. of the protein-free type-specific polysaccharide of either Type I, Type II, or Type III pneumococci or 4 similar daily injections was followed, in most of 29 subjects, by the appearance of antibodies against the homologous, but not against the heterologous type pneumococci. Some subjects showed a simultaneous lowering of a preexisting pneumococcidal power for heterologous or homologous types. A single intracutaneous injection of O.1 mg. of pneumococcus protein in 13 individuals was not followed by the appearance of specific antibodies to any appreciable degree. Single intracutaneous injections of small amounts of autolysates derived from virulent strains of Type I, II, or III pneumococci were followed in 11 subjects by a more or less general rise in the pneumococcidal power with the appearance of homologous type agglutinins and protective antibodies in about one-third of the subjects.

scholarly journals STUDIES ON PHOTO-OXIDATION OF ANTIGEN AND ANTIBODIES

1941 ◽  
Vol 73 (2) ◽  
pp. 223-242 ◽  
Author(s):  
Hans Smetana ◽  
David Shemin
Keyword(s):  
Specific Antibody ◽  
Horse Serum ◽  
Amino Nitrogen ◽  
Rabbit Serum ◽  
Type I ◽  
Egg Albumin ◽  
Photo Oxidation ◽  
Precipitin Reaction ◽  
Antigenic Properties ◽  
Chemical Studies

1. Quantitative precipitin studies indicate that progressive photo-oxidation progressively destroys the antigenic function of egg albumin. 2. Quantitative precipitin reactions of antisera (anti-egg albumin rabbit serum and antipneumococcus Type I horse serum) demonstrate that progressive photo-oxidation causes progressive lowering of the potency of the sera. 3. Quantitative precipitin reactions of the photo-oxidized globulin gamma fraction of anti-egg albumin rabbit serum and of Felton solution of antipneumococcus Type I horse serum show that these specific antibody fractions behave similarly to antibodies in whole sera. 4. Egg albumin whose precipitin reaction is destroyed by photo-oxidation no longer causes anaphylaxis in guinea pigs and does not produce precipitins in rabbits. 5. Chemical studies of progressively photo-oxidized egg albumin show a progressive destruction of tryptophane and histidine while tyrosine remains intact and cystine is reversibly oxidized. Sulfhydryl groups can no longer be demonstrated in photo-oxidized egg albumin whose antigenic characteristics are greatly weakened. 6. Similar studies on the globulin gamma fraction of anti-egg albumin rabbit serum and on Felton solution show no diminution of these amino acids in photo-oxidized material whose antigenic properties are destroyed. 7. The non-coagulable nitrogen and the amino nitrogen of egg albumin, antisera, and their specific antibody fractions show but an insignificant increase during photo-oxidation, indicating that the loss of the precipitin reaction is not due to splitting of the respective protein molecules. 8. Electrophoretic studies of egg albumin, antisera, and their specific antibody fractions show that photo-oxidation causes a marked alteration of the pattern of these substrates. 9. Photo-oxidation of proteins causes the formation of aggregates, indicating denaturation. 10. Hematoporphyrin migrates with the albumin fraction of unaltered as well as the photo-oxidized anti-egg albumin rabbit serum and pneumococcus Type I horse serum; in isolated proteins such as egg albumin, globulin gamma, or Felton solution, etc., the dye moves independently of the protein; after progressive photo-oxidation Hp becomes progressively fixed to the protein. Eosin behaves similarly to hematoporphyrin.

scholarly journals QUANTITATIVE EXPERIMENTS WITH ANTIBODIES TO A SPECIFIC PRECIPITATE. I

1941 ◽  
Vol 73 (1) ◽  
pp. 125-140 ◽  
Author(s):  
Henry P. Treffers ◽  
Michael Heidelberger
Keyword(s):  
Horse Serum ◽  
Serum Antibody ◽  
Protein Molecule ◽  
Antigenic Specificity ◽  
Rabbit Serum ◽  
Type I ◽  
Egg Albumin ◽  
Homologous Antigen ◽  
Antibody Function ◽  
Immune Rabbit

1. Rabbits were injected with the washed specific precipitate from Type II antipneumococcus horse serum. Antibody in the resulting antiserum was determined by the quantitative agglutinin method using various specific precipitates as antigens. 2. Suspensions of Types I and II antipneumococcus horse specific precipitates, as well as the specific precipitates derived from Type VIII Pn (anti-C portion), and H. influenzae horse antisera were found to remove the same amount of antibody from the immune rabbit serum. 3. Purified antibody solutions prepared by dissociation methods from Types I and II antipneumococcus horse sera were found to remove the same quantity of antibody as did the homologous specific precipitates. 4. Specific precipitates from anti-crystalline egg albumin and anti-diphtheria horse sera were found to remove only a fraction of the antibody. The reasons for this are discussed. 5. A specific precipitate prepared from pepsin-digested Type I anti-pneumococcus horse serum removed all of the antibody to the homologous antigen from the rabbit anti-precipitate serum, but followed a different quantitative course. 6. From the quantitative course of these reactions and from experiments with specific precipitates from anti-Pn rabbit and pig sera it is concluded that the only antigenic specificity demonstrable for the antibodies investigated was that due to their common origin, and that the groupings responsible for their antibody function constitute either a small part of the total protein molecule or else are non-antigenic.

scholarly journals THE PROTECTIVE ACTION OF TYPE I ANTIPNEUMOCOCCUS SERUM IN MICE

1936 ◽  
Vol 64 (3) ◽  
pp. 377-383 ◽  
Author(s):  
Kenneth Goodner ◽  
Frank L. Horsfall
Keyword(s):  
Selective Adsorption ◽  
Protective Action ◽  
Horse Serum ◽  
Rabbit Serum ◽  
Type I ◽  
Antibody Complex ◽  
Antigen Antibody

1. The addition of small amounts of cholesterol and of cephalin reduces markedly the protective action of antipneumococcus horse serum. 2. These lipids do not affect the protective action of antipneumococcus rabbit serum. 3. These findings may be explained (a)by the selective adsorption of lipid on the antigen-antibody complex, and (b) by certain lipid antagonisms. 4. The failure of large amounts of immune horse serum to protect mice against pneumococcus infection is explicable on the basis of selective participation of lipids dependent upon the species from which the antibody is derived. 5. The lipids modify the results of protection tests only through participation in the process of specific sensitization.

scholarly journals A STUDY OF PNEUMOCOCCI REACTING WITH ANTIPNEUMOCOCCUS SERA OF TYPES I, II, AND III, WITH AN OBSERVATION OF A MUTATION OF ONE OF THE STRAINS

1919 ◽  
Vol 30 (2) ◽  
pp. 123-146 ◽  
Author(s):  
Mildred C. Clough
Keyword(s):  
Ascitic Fluid ◽  
Horse Serum ◽  
The Body ◽  
Blood Agar ◽  
Broth Culture ◽  
Type I ◽  
Type Ii ◽  
Human Beings ◽  
Cultural Characteristics ◽  
Normal Horse Serum

In this paper are reported the results of a study of nine strains of pneumococci agglutinating with antipneumococcus sera of all three types (Nos. I, II, and III). Seven of the strains were the cause of serious or fatal infections in human beings. Morphologically they were typical pneumococci with characteristic growth on ordinary media. Most of the strains were soluble in bile, fermented inulin, and caused no precipitation on glucose ascitic fluid agar. Two of the strains, however, resembled streptococci in these three cultural characteristics, but have been regarded as pneumococci on account of their serological reactions. Variations in the cultural reactions occurred with several strains while they were under observation. The virulence of the strains varied greatly, some strains being almost non-pathogenic, and others killing mice in doses of 0.000001 cc. of a 24 hour broth culture. Antipneumococcus Sera I, II, and III agglutinated all the strains in fairly high dilution (1:8 to 1:64 or higher), while normal horse serum caused no agglutination. Antipneumococcus Sera I, II, and III stimulated active phagocytosis of all the strains, while no phagocytosis occurred in control preparations with normal horse serum. These strains elaborated a soluble substance in the body of inoculated mice which caused the formation of a precipitate when the peritoneal washings, cleared by centrifugalization, were added to the antipneumococcus sera of all three types. Antipneumococcus Sera I, II, and III protected mice equally well against 1,000 to 10,000 times the minimal lethal dose of the two strains with which protection tests could be carried out. Absorption of serum of Types I and II with the homologous pneumococcus removed the agglutinins and the bacteriotropins for all these strains. Absorption of these sera with Strains T and N removed the agglutinins and the bacteriotropins for the homologous strain only, and not for typical members of Type I or II, or for the other atypically agglutinable strains reported in this paper. The agglutinins concerned in the agglutination of these peculiar strains are therefore minor agglutinins. As shown not only by agglutination tests, but also by protection tests and agglutinin absorption tests, these organisms bear the same relation to Types I, II, and III, as do atypical Type II strains to Type II. Immune sera were prepared with these strains, and each strain was tested with all the immune sera by means of phagocytic and agglutinative reactions. In general, the strains were found to be serologically distinct, though some interrelationships existed between Strains V and R, and between Strains H, F, and N. These sera had no activity towards strains belonging to Type I or II, or atypical Type II. A mutation occurred in one of the strains, B, while it was under observation. On isolation this strain had the cultural reactions of a typical pneumococcus, and had the phagocytic and agglutinative reactions of an atypical Type II. After 6 months cultivation on blood agar its serological reactions changed, and it became actively phagocyted and agglutinated in antipneumococcus sera of Types I, II, and III. Its cultural characteristics also changed, and it became bile-insoluble, did not ferment inulin, and caused precipitation in glucose ascitic fluid agar. At this time it caused an intense green discoloration at the base of the blood agar slants around the water of condensation. By repeated animal passages this strain was three times made to revert abruptly to its original form (atypical Type IIa), both in cultural and serological reactions. An immune serum was prepared to each form of the strain, and each serum acted strongly on the homologous form, but was without action on the heterologous form of the strain. This mutation suggests that these pneumococci reacting with all three types of antipneumococcus sera may represent primitive, relatively undifferentiated forms from which the fixed types may have arisen.

scholarly journals CROSS-REACTIONS OF ANTITYPHOID AND ANTIPARATYPHOID B HORSE SERA WITH VARIOUS POLYSACCHARIDES

1956 ◽  
Vol 104 (3) ◽  
pp. 375-382 ◽  
Author(s):  
Michael Heidelberger ◽  
Felix Cordoba
Keyword(s):  
Acetic Acid ◽  
Horse Serum ◽  
Type Ii ◽  
Branch Points ◽  
Cross Reactions ◽  
Tamarind Seed ◽  
End Groups ◽  
Specific Polysaccharide ◽  
Fine Structures

A study was made of cross-reactions of synthetic polyglucose and of numerous plant and bacterial gums in an antityphoid and an antiparatyphoid B horse serum. The observed differences permit conclusions to be drawn regarding certain of the linkages likely to be found in the fine structures of each of the corresponding Salmonella polysaccharides:— 1. Cross-reactions of the antityphoid serum with the specific polysaccharide of Type II pneumococcus and with tamarind seed polysaccharide, glycogen and synthetic polyglucose indicate that the acetic acid-degraded O-polysaccharide of S. typhi, strain O 901, may contain part, at least, of its glucose as 1,4,6-branch points or in 1,6-linkage, perhaps adjacent to a terminal, non-reducing, galactopyranose unit. 2. Cross-reactions of both antisera with arabogalactans point to the existence of (probably ß-) 1,3-, 1,6-, and/or 1,3,6-linkages of galactose in both the typhoid and paratyphoid B polysaccharides. 3. The differential reactivities of the galactomannans and yeast mannan suggest that the mannose in the typhoid polysaccharide is linked 1,2- or 1,3- with possible non-reducing mannopyranose end groups attached 1,6-. In the paratyphoid B polysaccharide the linkages are probably galacto-oligomannose 1,4-, or 1,4,6-, or the corresponding linkages of mannose alone.

scholarly journals CHEMICAL STUDIES ON BACTERIAL AGGLUTINATION

1945 ◽  
Vol 81 (1) ◽  
pp. 1-8 ◽  
Author(s):  
Elvin A. Kabat ◽  
C. Phillip Miller ◽  
Hilda Kaiser ◽  
Alice Z. Foster
Keyword(s):  
Specific Antibody ◽  
Quantitative Method ◽  
Type I ◽  
Type Ii ◽  
Subsequent Infection ◽  
Protective Antibody ◽  
Specific Polysaccharide ◽  
Chemical Studies ◽  
Bacterial Agglutination

1. The quantitative method for the estimation of agglutinins has been applied to antimeningococcal horse, rabbit, and chicken sera and to the sera of humans convalescing from meningococcus meningitis. The type-specific and group-specific agglutinin N can be measured, using homologous and heterologous suspensions of meningococci. 2. Type I horse, rabbit, and chicken antimeningococcal sera contain considerable amounts of antibody which cannot be removed either by Type II meningococcus suspension or by preparations of the Type I specific polysaccharide. This residual type-specific antibody has marked potency in protecting mice against subsequent infection with meningococci. 3. Most human convalescent sera contain group-specific antibody. Small amounts of protective antibody and of antipolysaccharide are also formed. 4. Type I antisera absorbed with Type I polysaccharide and with Type II meningococci could be used as a guide in the purification of this new antigen.

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