UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The in vivo effects of intravenous administration of alloantisera directed to I-J subregion coded determinants were investigated. In confirmation and extension of our previous results, anti-I-Jk [B10.A(3R) anti-B10.A(5R)] and anti-I-Js ([B10.A(3R) X B10.S(9R)]F1 anti-B10.HTT) antisera, when administered in 1 to 10 microliter amounts at the time of immunization, led to twofold increases in the IgM and IgG plaque-forming cells (PFC) responses to suboptimal doses of sheep erythrocytes in A/J (I-Jk) and SJL (I-Js) mice, respectively. To assess whether this immunopotentiation was due to a decrease in specific suppression, experiments were carried out using the polypeptide antigens random linear terpolymer of L-glutamic acid60, L-alanine30, and L-tyrosine10 (GAT) and random linear copolymer of L-glutamic acid50-L-tyrosine50 (GT), since administration of GAT to the nonresponder strain SJL, or GT to the nonresponder strain CBA fails to induce a primary PFC response and stimulates specific suppressor T cells able to prevent PFC responses to subsequent challenge with the immunogens GAT-methylated bovine serum albumin (MBSA) or GT-MBSA, respectively. The current study demonstrates that CBA (I-Jk) mice given 100 microgram GT in Maalox-pertussis adjuvant on day 0, and 10 microliter anti-I-Jk antiserum i.v. on days 0, 1, and 2, develop a significant primary specific PFC response on day 7. A similar responsiveness to 10 microgram GAT is found in SJL mice treated with 10 microliter anti-I-Js antiserum for 3 days. This same active anti-I-Js antiserum does not permit CBA mice to respond to GT, demonstrating the specificity of the anti-I-J effect. These data suggest that anti-I-J antiserum treatment at the time of antigen administration reduces suppressor responses to GAT or GT, permitting primary PFC responses. To directly demonstrate such an effect on suppressor activity, SJL or CBA mice treated, respectively, with GAT or GT to induce suppressor cells active on GAT-MBSA or GT-MBSA responses after adoptive transfer to normal syngeneic recipients were also given anti-I-J antisera (10 microliter/day) for 3 days, at which time their spleen cells were tested for suppressive activity upon transfer. Cells from such treated mice failed to show detectable suppressive activity upon transfer to syngeneic recipients challenged with GAT-MBSA or GT-MBSA, confirming the hypothesis of an in vivo effect of anti-I-J antiserum on suppressor activity.
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PMID:In vivo effects of anti-Ia alloantisera. I. Elimination of specific suppression by in vivo administration of antisera specific for I-J controlled determinants. 7 39

(Responder [R] X nonresponder [NR])F1 mice give indistinguishable primary in vitro plaque-forming cell (PFC) responses to either R or NR parental macrophages (Mphi) pulsed with the Ir-gene controlled antigen L-glutamic acid60-L-alanine30-L-tyrosine10 (GAT). However, such (R X NR)F1 mice, if primed to GAT, retained in vitro responsiveness to GAT-R-Mphi, but no longer responded to GAT-NR-Mphi. This suggested (a) a possible Mphi-related locus for Ir gene activity in this model, and (b) the occurrence of active suppression after priming with GAT leading to a selective loss of the usual primary responsiveness of (R X NR)F1 mice to GAT-NR-Mphi. This latter interpretation was tested in the current study. [Responder C57BL/6 (H-2b) X nonresponder DBA/1 (H-2q)]F1 mice were primed with 100 microgram GAT in pertussis adjuvant. 4-8 wk later, spleen cells from such mice were tested alone or mixed with normal unprimed F1 spleen cells for PFC responses to GAT-R-Mphi and GAT-NR-Mphi. The primed cells failed to respond to GAT-NR-Mphi, and moreover, actively suppressed the normal response of unprimed F1 cells to GAT-NR-Mphi. If the primed spleen cell donor had been treated with 5 mg/kg cyclophosphamide 3 days before priming or with 5-10 microliter/day of an antiserum to the I-Jb subregion [B10.A(5R) anti B10.A(3R)] during the first 4 days postpriming (both procedures known to inhibit suppressor T-cell activity), cells from such mice responded in secondary culture to both GAT-R-Mphi and also GAT-NR-MPhi. In addition, such spleen cells no longer were capable of suppressing normal F1 cells in response to GAT-NR-Mphi. Similar data were obtained using [CBA (H-2k) X DBA/1 (H-2q)]F1. Further, it was shown that (a) primary responsiveness to GAT-NR-Mphi was not an artifact of in vitro Mphi pulsing, because in vivo GAT-pulsed Mphi showed the same activity and (b) the secondary restriction for Mphi-antigen presentation was controlled by H-2 linked genes. These data suggest an important role for suppressor T cells in H-2 restricted secondary PFC responses, and also provide additional support for the hypothesis that Ir-gene controlled differences in Mphi antigen presentation are related to both suppressor cell generation and overall responsiveness in the GAT model.
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PMID:The involvement of suppressor T cells in Ir gene regulation of secondary antibody responses of primed (responder X nonresponder)F1 mice to macrophage-bound L-glutamic acid60-L-alanine30-L-tyrosine. 10 25

As compared to specifically pathogen-free NMRI mice, in principle, the immunological reactivity of germfree mice of the same strain and age was not found to be reduced. This is documented by the cellular kinetics of the primary immune responses, evoked by the intraperitoneal (i.p.) injection of either a "saturated" dose of 4 times 10(8) sheep erythrocytes (SE) or the simultaneous injection of 4 times 10(8) SE and 3 times 10(9) killed Bordetella pertussis organisms (PO). Thereby, adjuvancy of PO was not found to be reduced in germfree mice. The only difference consisted in the demonstration of significantly reduced numbers of both direct and indirect plaque-forming spleen cells (PFC) on the 4th day after primary antigenic stimulation. This is suggested to be due to a lack of sufficient training of the immunological apparatus of germfree mice. Both in germfree and conventional mice significant splenomegaly, blood leukocytosis as well as increase in the numbers of pre-existing "background" PFC became detectable following a single i.p. injection of 3 times 10(9) PO without SE. Similarly, the injection of endotoxin from Serratia marcescens produced a moderate increase in the numbers of "background" PFC. From the data presented it is suggested that strict gnotobiotic conditions do not cause noteworthy deficiency in immunological competence.
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PMID:Influence of Bordetella pertussis and bacterial endotoxins on the immunological reactivity of germfree mice. 16 52

The adjuvant effect of Bordetella pertussis vaccine (PV) on the antibody response to sheep erythrocytes (SRBC) has been studied in vitro with the Mishell-Dutton immunization technique. The addition of PV to cultures of spleen cells obtained from normal non-immunized mice markedly enhanced the plaque-forming cell response to SRBC. The greatest enhancement was evident at 24 hr of culture. PV was also shown to enhance the antibody response of spleen cells that had been depleted of either T lymphocytes or adherent cells, presumably macrophages. In addition, it was found that PV, per se, released into the culture medium a soluble cell-free component(s) that contributed significantly to adjuvanticity. The results suggest that at least one of the ways that PV enhances the in vitro immune response to SRBC is by direct stimulation of precursors of antibody-forming cells.
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PMID:Studies on the adjuvant effect of Bordetella pertussis vaccine to sheep erythrocytes in the mouse. I. In vitro enhancement of antibody formation with normal spleen cells. 17 Mar 37

Carrageenan, a known macrophage toxin and immunosuppressive agent, has been studied for its effect on antibody responses following single doses or multiple daily increasing doses of sheep red blood cells (SRBC) injected intraperitoneally (i.p.) in male CBA strain mice. Results showed that lambda carrageenan administered prior to a single i.p. injection of SRBC markedly suppressed both the IgM and IgG responses. However, when carrageenan-treated mice were injected with multiple daily increasing amounts of SRCB antigen, high titers of specific antibody activities were produced in serum while only IgM plaque-forming cells (PFC) were detected in the spleens up to 8 weeks later. Higher serum titers were obtained if Bordetella pertussis vaccine was administered i.p. shortly before the first antigen dose was injected in the carrageenan-treated mice. Direct PFC (IgM) but not indirect PFC (IgG) were detected in suspensions of spleen cells late in the response of these mice. Such treatment may provide a useful method for raising high titers of cytotoxic IgM antibody to other T-dependent antigens. Evidence is presented to show that pertussis vaccine--a known potentiator of the IgG response--does not reverse the inhibitory effects of carrageenan. Results also provide evidence for the requirement of functional macrophages in the induction of helper-cell activity for the thymus dependent IgG response in vivo.
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PMID:A method for the induction of a prolonged elevated IgM response without the formation of IgG antibody, by injecting carrageenan-treated mice with multiple doses of sheep erythrocytes. 31 64

The subcutaneous route (s.c.) was used to study the adjuvant effect of Bordetella pertussis vaccine (pv) on the primary antibody response to sheep erythrocytes. The reasons for using the s.c. route are discussed. PV, besides enhancing the hemagglutinin response, also markedly increased the number of plaque-forming cells in the draining lymph nodes. A heated preparation of PV was tested and found to possess significant adjuvant activity. Interestingly, the enhancement occurred in the absence of marked enlargement of the lymph nodes, which was characteristic of the unheated preparation. In addition, a crude solubilized cell-free preparation of PV was tested and also found to possess significant adjuvant activity. The activity was only partially abolished by heat. Hence, it was concluded that both heat-labile as well as heat-stable factors contributed to the adjuvanticity of PV. The studies also support the view that the draining lymph nodes represent a principal locus of action of PV and that the s.c. route of administration of adjuvant and antigen provides a suitable model for studying and assaying the adjuvanticity of PV.
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PMID:Adjuvant effect of Bordetella pertussis vaccine to sheep erythrocytes: enhancement of antibody formation by using subcutaneous administration of adjuvant and antigen. 110 87

Immunogenicity and reactogenicity of the oral rhesus rotavirus vaccine (RRV) were assessed among 72 infants (6 weeks old) in Lahore, Pakistan, from August to December 1985. Special emphasis was placed on the possible interaction or interference caused by giving RRV at the time infants received their first polio immunization. RRV was given to the infants at the same time as diphtheria-tetanus-pertussis (DTP), oral poliovirus vaccine (OPV), or inactivated poliovirus vaccine (IPV). The immune response to RRV was assessed by plaque-reduction neutralization 3 weeks after immunization and serum immunoglobulin (Ig) G and IgA antibody levels to poliovirus type 1 were tested by enzyme-linked immunosorbent assay (ELISA) after polio immunizations. Of the infants in the group given RRV with OPV, 50% had a two- to four-fold rise in neutralization titre against rotavirus, compared with 22% in the group given RRV with DTP and 20% in the group given RRV and IPV (P less than 0.05). Interference by live oral polio vaccination in the response to RRV seems unlikely. We observed no significant difference in rates of seroconversion of IgG antibodies to poliovirus type 1 among infants aged 18 and 21 weeks who received RRV and OPV (81%), RRV with delayed OPV (67%), or RRV and IPV (59%). Administration of RRV was safe and was not associated with adverse reactions in the 6 weeks old infants. The low rate of seroconversion to rotavirus suggests that a more antigen-rich vaccine or multiple doses of the same vaccine might produce a better immune response.
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PMID:Immunogenicity and reactogenicity of rhesus rotavirus vaccine given in combination with oral or inactivated poliovirus vaccines and diphtheria-tetanus-pertussis vaccine. 165 74

The reverse hemolytic plaque assay (RHPA) was used in this study to further characterize the mechanism whereby low concentrations of dopamine (DA) stimulate PRL secretion in vitro. Female Sprague-Dawley rats were used as a source of anterior pituitary cells for the RHPA. Pituitary cells were infused into Cunningham chambers along with a suspension of protein-A-coated ovine red blood cells. Excess cells were rinsed from the chambers leaving a monolayer of cells attached to the glass. The cells were then incubated with solutions containing PRL antiserum (1:40) and various concentrations of DA. After 4 h, a solution containing guinea pig complement (1:60) was infused into the chambers. Thirty minutes later, the cells were fixed and plaques (zones of hemolysis) surrounding PRL-producing cells (lactotrophs) were measured and used as an index of the amount of PRL secreted. Control cells that received no DA had a mean plaque area of 8,000 microns 2 and two distinct subpopulations of plaque sizes. This biphasic population of cells consisted of a small and a large plaque producing population. The mean plaque area surrounding lactotrophs was significantly (P less than 0.05) decreased if 1 microM or 10 microM DA was present (4,500 microns 2 and 3,500 microns 2, respectively). These cells which received inhibitory concentrations of DA demonstrated a monophasic distribution of plaque-forming cells. On the other hand, mean plaque area was significantly (P less than 0.05) increased if 0.1 nM or 1 nM DA was presented to the cells (15,000 microns 2 and 14,500 microns 2, respectively). These cells receiving stimulatory doses of DA exhibited a multiphasic distribution of plaque-forming cells. The possibility that the two physiological opposing actions of DA on PRL secretion might be mediated by different GTP binding proteins was also examined using cholera toxin (CTX) and pertussis toxin (PTX). Anterior pituitary cells were pretreated with either CTX (50 micrograms/ml) or PTX (5 micrograms/ml) for 1 h before initiation of the RHPA. In the RHPA, cells received no DA, a stimulatory dose of DA (0.1 nM), or a inhibitory dose of DA (10 microM). The effects of toxin pretreatment on mean plaque area of DA-treated cells was determined. PTX pretreatment significantly attenuated the inhibitory effects of DA while having no effect on the stimulatory effects of DA on PRL secretion. CTX significantly (P less than 0.05) potentiated the stimulatory effects of DA on PRL secretion and had no effect on inhibition.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The stimulatory and inhibitory effects of dopamine on prolactin secretion involve different G-proteins. 173 34

The immunomodulatory effects of pertussis toxin (Ptx) were studied in BALB/c mice immunized with type III pneumococcal polysaccharide (SSS-III). The antibody response to SSS-III is predominantly of the IgM class and is regulated by two opposing types of T cells, a T suppressor (TS) and a T amplifier (TA) cell. Treatment of mice with Ptx at the time of immunization with SSS-III results in an enhancement of the splenic antigen-specific IgM response, which was estimated by a plaque-forming cell assay. Numbers of non-antigen-specific IgM producing cells were not significantly affected. This adjuvant effect occurred in nu/+ but not in T cell deficient nu/nu mice. Such adjuvanticity appears to be due in part to the neutralization of TS, since (a) Ptx-treatment was found to reverse TS-mediated low-dose immunological tolerance induced in mice previously exposed to a subimmunogenic dose of SSS-III, and (b) in vitro Ptx-treatment of a cell population enriched in SSS-III-specific TS, activity abolished the capacity of such cells to transfer suppression when given to recipients at the time of immunization with SSS-III. In another type of cell transfer experiment, it was shown that Ptx treatment resulted in an increased frequency of TA in mice immunized with SSS-III. We conclude that Ptx differentially affects at least two populations of regulatory T cells, and that these effects are not directly related to the mitogenicity of Ptx for T cells or to a direct effect upon B cells.
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PMID:Adjuvanticity of pertussis toxin is mediated by differential effects on the activity of T suppressor, T amplifier and T helper cells. 183 45

1. Somatotrophs were obtained from rat pituitary glands after dissociation, separation and enrichment on a continuous gradient of bovine serum albumin at unit gravity. Somatotrophs were enriched up to 85% in the heavy fractions (F8 and F9). 2. After identification by reverse hemolytic plaque assay, patch-clamp recording in the whole-cell mode was performed on somatotrophs. 3. Under voltage-clamp conditions, two types of Ca2+ currents were recorded. From a holding potential of -70 mV, depolarizing voltage steps to potentials more positive than -50 mV activated a current which rapidly inactivated and which was very sensitive to Ni2+ but not to Cd2+. This current corresponds to T-type current. Depolarizing steps to potentials more positive than -30 mV from a holding potential of -40 mV triggered a current which slowly inactivated and which was very sensitive to Cd2+ but not to Ni2+. This current corresponds to L-type current. 4. Application of somatostatin to the bath solution (10 nM) markedly reduced the amplitudes of both T- and L-type currents. Somatostatin decreased the conductance of L-type current without modifying its time- and voltage-dependent inactivation but its activation was not affected. However, somatostatin decreased the conductance of T-type currents, and also accelerated its time-dependent inactivation. Half-inactivation voltage of T-type current was shifted from -52 to -63 mV by somatostatin but no change was obtained in the current activation curve. 5. All these modifications in Ca2+ currents were abolished by a pre-treatment of the cultures with pertussis toxin (100 ng/ml, for 10 h). This pre-treatment also blocked the inhibitory effect of somatostatin on high-K(+)-stimulated growth hormone release. 6. Our results show that somatostatin acts on somatotrophs by attenuating the voltage-dependent Ca2+ currents. These effects may contribute to a somatostatin-induced reduction in [Ca2+]i and the subsequent decline in growth hormone release.
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PMID:Two types of voltage-dependent calcium current in rat somatotrophs are reduced by somatostatin. 197 2

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