Biological properties of bovine immunoglobulins and systemic antibody responses

Biological properties of bovine immunoglobulins and systemic antibody responses

The classification of bovine immunoglobulins is similar to that of nonruminant mammals, namely IgM, IgA, IgG<sub>1, IgG<sub>2 and IgE. There are minimal differences between IgG<sub>1 and IgG<sub>2 in complement fixation, ability to mediate passive cutaneous anaphylaxis, phagocytosis of coated erythrocytes by cultured monocytes and precipitation of antigens bearing unique determinants, such as ovalbumin. The functional properties of bovine IgM are identical to those of the IgM of other mammals. The antigens used in elucidating these properties, however, were of noninfective origin. These studies were extended to infectious agents such as African trypanosomes and Theileria parva. Cattle infected with Trypanosoma congelense and T. brucei produced high levels of specific IgM and IgG antibodies that could inhibit infectivity and mediate phagocytosis of homologous trypanosomes. The IgM produced in T. brucei infections differed from that produced against noninfectious agents in that it induced adherence of sensitized trypanosomes to, and phagocytosis by, cultured bovine monocytes in the absence of heterologous complement. The ability of trypanosome-infected cattle to respond to superinfection was depressed depending on the time interval between the first and the second inoculations. Cattle vaccinated with Brucella abortus vaccine during acute or chronic infection with T. congelense or T. vivax also showed reduced responses to the vaccine. The nature of these altered responses was reminiscent of antigenic competition. Cattle responded to T. parva infections by producing antibodies to the three stages of the parasite, namely sporozoites, macroschizonts and piroplams. Only the anti-sporozoite antibodies could block entry of sporozoite antibodies could block entry of sporozoites into target cells.

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Bibliographic Details
Main Authors: Musoke, A.J., Rurangirwa, F.R., Nantulya, V.M.
Format: Conference Paper biblioteca
Language:English
Published: Cambridge University Press 1986
Subjects:cattle, antibodies, immune response, immunoglobulins, disease control,
Online Access:https://hdl.handle.net/10568/50222
https://books.google.com/books?id=aMgLkjdlEyMC
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spelling dig-cgspace-10568-502222016-05-30T17:53:03Z Biological properties of bovine immunoglobulins and systemic antibody responses Musoke, A.J. Rurangirwa, F.R. Nantulya, V.M. cattle antibodies immune response immunoglobulins disease control The classification of bovine immunoglobulins is similar to that of nonruminant mammals, namely IgM, IgA, IgG<sub>1, IgG<sub>2 and IgE. There are minimal differences between IgG<sub>1 and IgG<sub>2 in complement fixation, ability to mediate passive cutaneous anaphylaxis, phagocytosis of coated erythrocytes by cultured monocytes and precipitation of antigens bearing unique determinants, such as ovalbumin. The functional properties of bovine IgM are identical to those of the IgM of other mammals. The antigens used in elucidating these properties, however, were of noninfective origin. These studies were extended to infectious agents such as African trypanosomes and Theileria parva. Cattle infected with Trypanosoma congelense and T. brucei produced high levels of specific IgM and IgG antibodies that could inhibit infectivity and mediate phagocytosis of homologous trypanosomes. The IgM produced in T. brucei infections differed from that produced against noninfectious agents in that it induced adherence of sensitized trypanosomes to, and phagocytosis by, cultured bovine monocytes in the absence of heterologous complement. The ability of trypanosome-infected cattle to respond to superinfection was depressed depending on the time interval between the first and the second inoculations. Cattle vaccinated with Brucella abortus vaccine during acute or chronic infection with T. congelense or T. vivax also showed reduced responses to the vaccine. The nature of these altered responses was reminiscent of antigenic competition. Cattle responded to T. parva infections by producing antibodies to the three stages of the parasite, namely sporozoites, macroschizonts and piroplams. Only the anti-sporozoite antibodies could block entry of sporozoite antibodies could block entry of sporozoites into target cells. 1986 2014-10-31T06:08:56Z 2014-10-31T06:08:56Z Conference Paper https://hdl.handle.net/10568/50222 https://books.google.com/books?id=aMgLkjdlEyMC en Open Access Cambridge University Press
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic cattle
antibodies
immune response
immunoglobulins
disease control
cattle
antibodies
immune response
immunoglobulins
disease control
spellingShingle cattle
antibodies
immune response
immunoglobulins
disease control
cattle
antibodies
immune response
immunoglobulins
disease control
Musoke, A.J.
Rurangirwa, F.R.
Nantulya, V.M.
Biological properties of bovine immunoglobulins and systemic antibody responses
description The classification of bovine immunoglobulins is similar to that of nonruminant mammals, namely IgM, IgA, IgG<sub>1, IgG<sub>2 and IgE. There are minimal differences between IgG<sub>1 and IgG<sub>2 in complement fixation, ability to mediate passive cutaneous anaphylaxis, phagocytosis of coated erythrocytes by cultured monocytes and precipitation of antigens bearing unique determinants, such as ovalbumin. The functional properties of bovine IgM are identical to those of the IgM of other mammals. The antigens used in elucidating these properties, however, were of noninfective origin. These studies were extended to infectious agents such as African trypanosomes and Theileria parva. Cattle infected with Trypanosoma congelense and T. brucei produced high levels of specific IgM and IgG antibodies that could inhibit infectivity and mediate phagocytosis of homologous trypanosomes. The IgM produced in T. brucei infections differed from that produced against noninfectious agents in that it induced adherence of sensitized trypanosomes to, and phagocytosis by, cultured bovine monocytes in the absence of heterologous complement. The ability of trypanosome-infected cattle to respond to superinfection was depressed depending on the time interval between the first and the second inoculations. Cattle vaccinated with Brucella abortus vaccine during acute or chronic infection with T. congelense or T. vivax also showed reduced responses to the vaccine. The nature of these altered responses was reminiscent of antigenic competition. Cattle responded to T. parva infections by producing antibodies to the three stages of the parasite, namely sporozoites, macroschizonts and piroplams. Only the anti-sporozoite antibodies could block entry of sporozoite antibodies could block entry of sporozoites into target cells.
format Conference Paper
topic_facet cattle
antibodies
immune response
immunoglobulins
disease control
author Musoke, A.J.
Rurangirwa, F.R.
Nantulya, V.M.
author_facet Musoke, A.J.
Rurangirwa, F.R.
Nantulya, V.M.
author_sort Musoke, A.J.
title Biological properties of bovine immunoglobulins and systemic antibody responses
title_short Biological properties of bovine immunoglobulins and systemic antibody responses
title_full Biological properties of bovine immunoglobulins and systemic antibody responses
title_fullStr Biological properties of bovine immunoglobulins and systemic antibody responses
title_full_unstemmed Biological properties of bovine immunoglobulins and systemic antibody responses
title_sort biological properties of bovine immunoglobulins and systemic antibody responses
publisher Cambridge University Press
publishDate 1986
url https://hdl.handle.net/10568/50222
https://books.google.com/books?id=aMgLkjdlEyMC
work_keys_str_mv AT musokeaj biologicalpropertiesofbovineimmunoglobulinsandsystemicantibodyresponses
AT rurangirwafr biologicalpropertiesofbovineimmunoglobulinsandsystemicantibodyresponses
AT nantulyavm biologicalpropertiesofbovineimmunoglobulinsandsystemicantibodyresponses
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