EGF module-containing mucin-like hormone receptor 2 and its role in human immune privilege

Song, Helen

22 January 2016

PURPOSE: In the mouse, the macrophage adhesion G protein-coupled receptor (ad-GPCR) molecule, F4/80, is required for the development of regulatory T cells in two models of tolerance, the eye and gut. Since F4/80 is not expressed in humans, the purpose of this research is to determine the human analog of F4/80. F4/80 belongs to a novel family of Epidermal growth factor-seven transmembrane (EGF-TM7) molecules, which include the EGF module-containing mucin-like hormone receptor (EMR) molecules. In the human, EMR1 has sequential homology with F4/80 and EMR2 has shown immune suppressing function in tumor cells. Thus, we investigate the possible suppressor role of the EMR family in human ocular tolerance. METHODS: Human peripheral blood mononuclear cells (huPBMC) were treated with porcine TGFβ2 and LPS or an antigenic stimulant for at least six hours to generate tolerogenic antigen presenting cells (APC). Cells were characterized by flow cytometric analysis for expression of CD14, CD40, PDL1, ILT3, and EMR2. Later, T regulatory cells were generated by incubating tolerogenic APCs with autologous huPBMC for five to seven days. Post culture, the T cells were stained and characterized for expression of CD4, CD25, and FoxP3. RESULTS: Post treatment of huPBMC with TGFβ2 and antigen, the resulting tolerogenic APCs expressed PDL1, ILT3, and EMR2. CD40 remained unchanged and CD14 was constitutively expressed. Post five to seven day culture, tolerogenic APCs treated with TGFβ2 increased the CD4+ CD25+ FoxP3+ lymphocyte populations. CONCLUSIONS: The upregulation of EMR2 on human tolerogenic APCs suggests that EMR2 may have a role in inducing tolerance in humans. Much like its mouse counterpart, F4/80, EMR2 is an adhesion molecule that may facilitate the induction of naïve T lymphocytes to regulatory T lymphocytes. Once the F4/80 analog is established for humans, novel therapies may be developed to interfere or encourage signaling in the treatment of tumors or immune inflammatory diseases, respectively.

Immunology

EMR2

F4/80

Ocular

TGFbeta

Antigen

Immune privilege

Towards a Christian literary theory

Ferretter, Luke

January 1999

Most contemporary literary theories are either explicitly or implicitly atheistic. This thesis describes a literary theory whose principles are derived from or consistent with Christian theology. It argues against modern objections to such a theory that this is a rationally and ethically legitimate mode of contemporary literary theory. The first half of the thesis constitutes an analysis of deconstruction, of Marxism and of psychoanalysis. These are three of the most influential discourses in modern literary theory, each of which constitutes a significant argument against the existence of God, as this has traditionally been understood in Christian theology. In a chapter devoted to each theory, I examine its relation to Christian theology, and argue that it does not constitute a conclusive argument against the truth-content of such theology. I go on to assess which of its principles can be used in modem Christian literary theory, and which cannot. The second half of the thesis constitutes an analysis of a Christian tradition of thought that pertains to literary theory. In the fourth chapter, I examine the concepts of language and of art expressed or implied in the Bible, St. Augustine and St. Thomas Aquinas, and assess which of these concepts could be used in Christian literary theory today. In the fifth chapter, I examine certain twentieth-century Christian philosophers and literary critics, and assess how their thought could be used in contemporary Christian literary theory. In the final chapter, I synthesize the conclusions to these arguments into the outline of a literary theory that both derives from Christian theology and takes account of the objections to such theology posed by contemporary literary theory.

Security of Unbalanced Oil-Vinegar Signature Scheme

Yin, Zhijun

January 2012

No description available.

Applied Mathematics

Signature Scheme

Cryptanalysis

Cryptography

TTS

F4

multivariate polynomial

Revisitando a cavidade peritoneal de camundongos: identificação de novos subtipos funcionais de linfócitos B-1 e macrófagos / Revisiting the mouse peritoneal cavity: identification of new functionally distinct subsets of macrophages and B-1 Iymphocytes

Eliver Eid Bou Ghosn

16 December 2008

A cavidade peritoneal de camundongos abriga uma variedade de células do sistema imune. Inicialmente, devido as limitações metodológicas, acreditava-se que, aproximadamente, 90% das células peritoneais era representada por macrófagos. Em seguida, graças aos extensos estudos com células peritoneais, observou-se que, além dos macrófagos, o peritônio abrigava muitos linfócitos B, principalmente do subtipo B-1. Utilizando metodologias contemporâneas de FACS - citometria de fluxo, este trabalho mostra que, aproximadamente, 30% das células peritoneais são macrófagos, 55% são linfócitos B-1, dos quais 40% pertencem ao subtipo B-1a e 15% ao subtipo B-1b. Os 15%-20% restantes representam outros subtipos celulares, como linfócitos T, linfócitos B-2, linfócitos NK, eosinófilos, além da presença de outras populações de células que não foram possíveis de ser identificadas com os marcadores de superfície utilizados neste trabalho. Em contraste com a literatura, nossos estudos mostraram que os macrófagos da cavidade peritoneal de camundongos representam uma população heterogênea. Por meio da co-expressão de CD11b e F4/80, foi possível descrever dois subtipos funcionais de macrófagos, denominados aqui de PM-1 (CD11bhigh, F4/80high) e PM-2 (F4/8010W, CD11bint). As células PM-2 encontram-se em menor abundância (-10% do total de macrófagos) no peritônio não estimulado e, diferentemente de células PM-1, espraiam-se de forma alongada (bipolar) quando colocadas em cultura. Curiosamente, PM-2 são os únicos macrófagos peritoneais que expressam MHC-II e, ainda, 30% dessa população expressa CD11c, o marcador típico de células dendríticas. Já as células PM-1 possuem morfologia arredondada, estão em abundância no peritônio e produzem altas doses de NO após estímulo com LPS. Ambas as células são capazes de fagocitar bactérias in vivo, no entanto, as células PM-2 parecem mais eficientes, sendo capazes de internalizar quantidades maiores de bactérias. Após infecção in vivo, o número absoluto e a porcentagem de PM-2 aumenta muito no peritônio, chegando a representar metade dos fagócitos da cavidade peritoneal. Os macrófagos PM-1 e PM-2 parecem não representar monócitos já que não compartilham do fenótipo de monócitos presentes no sangue periférico. Deve-se ressaltar que, além das células PM-1 e PM-2, outras subpopulações do peritônio também expressam CD11b e F4/80. Com base na literatura atual, acredita-se que todas as células B-1 do peritônio expressam CD11b, uma molécula que é co-expressa com CD18 para formar o receptor de complemento e a molécula de adesão Mac-1. Entretanto, os estudos, apresentados neste trabalho, mostram que metade de cada subtipo de B-1 (B-1a e B-1b) não expressa CD11b. As células B-1 CD11b+ são maiores, mais granulosas e expressam quantidades maiores de IgM de superfície. As células CD11b+ possuem uma curiosa tendência de se juntar e formar duplas (doublets) fortemente ligadas entre si que estão presentes em abundância no peritônio de camundongos adultos. Além de ligarem entre si, as células B-1 podem formar duplas com macrófagos PM-1 e PM-2. Durante a ontogenia, as células CD11b- surgem primeiro no peritônio e são as progenitoras das células B-1 CD11b+. Após estímulo inflamatório (LPS í. v.) os linfócitos B-1 CD11b+ migram do peritônio para o baço, onde proliferam e transformam-se em células secretoras de anticorpos (plasmócitos). No peritônio, as células B-1 não são capazes de se diferenciar em plasmócitos (células CD138high). Os resultados apresentados aqui mostraram que, diferentemente dos macrófagos PM-2, os PM-1 são os responsáveis por inibir a formação de células secretoras de anticorpos derivadas de B-1. Em suma, nossos dados sugerem que, mediante estímulo inflamatório, as células B-1 maduras (CD11b+) migram do peritônio para o baço, afastandose de macrófagos PM-1. Já no baço, as células B-1 encontram um micro-ambiente favorável para se proliferarem e diferenciarem-se em plasmócitos, secretando a maioria dos anticorpos naturais vistos logo nas primeiras horas pós-estímulo. / Mouse peritoneal cavity (PerC) represents the source for a variety of cellular subsets of the immune system. In early studies, marred by Iimited methodological tools, it was thought that macrophages comprise roughly 90% of total PerC cells. Shortly thereafter, it was recognized that, beside macrophages, the mouse peritoneal cavity shelters large amount of B-lymphocytes, specially the B-1 subset. In essence, by applying contemporary technology, studies presented here show that, roughly 30% of PerC cells comprise macrophages, 55% comprise B-1 cells, which 40% represents the B-1 a subset and roughly 15% are B-1b cells. The remaining 15%-20% of PerC cells comprise a variety of known immune cells, including B-2, T, NK and eosinophils. In addition, there were some other cellular subsets that could not be identified in these studies, probably due to limited cell surface molecules analyzed. Surprisingly, the data presented here show that peritoneal macrophages represent a highly heterogeneous population. Based on the co-expression of both CD11b and F4/80, we have identified two functionally distinct subsets of peritoneal macrophages, named here as PM-1 (CD11bhigh, F480high) and PM-2 (CD11bint, F4/80low). PM-2 are less abundant (-10% within total macrophages) in the PerC of unstimulated mouse, however, unlike PM-1, these cells are able to spread in spindle (bipolar) morphology upon sorting and in vitro culture. Curiously, PM-2 is the only PerC macrophage that expresses surface MHC-II. In addition, one third of PM-2 population expresses CD11c, a universal marker for dendritic cells. In turn, PM-1 cells are round shaped cells, represent the majority of PerC macrophages (-90%) and secrete high amounts of NO upon LPS stimulation. In vivo phagocytosis assay revealed that both cells could internalize bacteria, however, PM-2 cells showed to be more efficient, in that it was able to phagocyte higher amounts of bacteria when compared to PM-1. After i.p. in vivo stimulation, the absolute number and percentage of PM-2 cells increase drastically in the peritoneum, reaching almost half of the total PerC macrophages. Importantly, PM-1 and PM-2 macrophages seem not to represent PerC monocytes since it does not share any of the phenotype expressed by blood monocytes. Interestingly, in addition to PM-1 and PM-2, some other cellular subsets in the PerC, such as eosinophils, are able to express CD11b and F4/80. PerC B-1 cells have long been known to express CD11b, which is co-expressed with CD18 to form the Mac-1/CR3 complement receptor and adhesion molecule. However, although all PerC B-1 cells are commonly believed to express CD11b, we show here that nearly half of the cells in each of the PerC B-1 subsets (B-1a and B-1b) do not express this surface receptor. The CD11b+ cells in each B-1 subset are larger, more granular and express higher levels of surface IgM than the CD11b- B-1 cells. Surprisingly, the CD11b+ B-1 subset has the curious tendency to initiate the formation of tightly associated doublets that are present at high frequency in adult PerC. In addition to binding to each other, B-1 cells can also form doublets with PM-1 and PM-2. During ontogeny, CD11b- B-1 cells arise earlier in the mouse PerC and are the progenitors of CD11b+ B-1 cells. Upon LPS stimulation, PerC CD11b+ B-1 cells migrate to the spleen where they proliferate and differentiate into antibody-secreting cells (plasma cells). Within the PerC, B-1 cells are not able to differentiate into plasma cells (CD138high cells). The data shown in here reveal that, unlike PM-2, PM-1 macrophages are the cellular subset responsible for inhibiting the formation of B-1-derived antibody-secreting cells. Altogether, our data suggest that, upon inflammatory stimuli, mature CD11b+ B-1 cells migrate from the PerC to the spleen, avoiding the inhibitory effect of PM-1 cells. In the spleen, B-1 cells find an appropriate environment to proliferate and terminally differentiate into antibody-secreting cells, thus, secreting the majority of immunoglobulin seen in few hours after in vivo stimulation.

CD11b

F4/80

FACS (Citometria de fluxo)

LPS

Plasmócitos

CD11b

F4/80

FACS (Flow cytometry)

LPS

Plasma cell

Revisitando a cavidade peritoneal de camundongos: identificação de novos subtipos funcionais de linfócitos B-1 e macrófagos / Revisiting the mouse peritoneal cavity: identification of new functionally distinct subsets of macrophages and B-1 Iymphocytes

Ghosn, Eliver Eid Bou

16 December 2008

A cavidade peritoneal de camundongos abriga uma variedade de células do sistema imune. Inicialmente, devido as limitações metodológicas, acreditava-se que, aproximadamente, 90% das células peritoneais era representada por macrófagos. Em seguida, graças aos extensos estudos com células peritoneais, observou-se que, além dos macrófagos, o peritônio abrigava muitos linfócitos B, principalmente do subtipo B-1. Utilizando metodologias contemporâneas de FACS - citometria de fluxo, este trabalho mostra que, aproximadamente, 30% das células peritoneais são macrófagos, 55% são linfócitos B-1, dos quais 40% pertencem ao subtipo B-1a e 15% ao subtipo B-1b. Os 15%-20% restantes representam outros subtipos celulares, como linfócitos T, linfócitos B-2, linfócitos NK, eosinófilos, além da presença de outras populações de células que não foram possíveis de ser identificadas com os marcadores de superfície utilizados neste trabalho. Em contraste com a literatura, nossos estudos mostraram que os macrófagos da cavidade peritoneal de camundongos representam uma população heterogênea. Por meio da co-expressão de CD11b e F4/80, foi possível descrever dois subtipos funcionais de macrófagos, denominados aqui de PM-1 (CD11bhigh, F4/80high) e PM-2 (F4/8010W, CD11bint). As células PM-2 encontram-se em menor abundância (-10% do total de macrófagos) no peritônio não estimulado e, diferentemente de células PM-1, espraiam-se de forma alongada (bipolar) quando colocadas em cultura. Curiosamente, PM-2 são os únicos macrófagos peritoneais que expressam MHC-II e, ainda, 30% dessa população expressa CD11c, o marcador típico de células dendríticas. Já as células PM-1 possuem morfologia arredondada, estão em abundância no peritônio e produzem altas doses de NO após estímulo com LPS. Ambas as células são capazes de fagocitar bactérias in vivo, no entanto, as células PM-2 parecem mais eficientes, sendo capazes de internalizar quantidades maiores de bactérias. Após infecção in vivo, o número absoluto e a porcentagem de PM-2 aumenta muito no peritônio, chegando a representar metade dos fagócitos da cavidade peritoneal. Os macrófagos PM-1 e PM-2 parecem não representar monócitos já que não compartilham do fenótipo de monócitos presentes no sangue periférico. Deve-se ressaltar que, além das células PM-1 e PM-2, outras subpopulações do peritônio também expressam CD11b e F4/80. Com base na literatura atual, acredita-se que todas as células B-1 do peritônio expressam CD11b, uma molécula que é co-expressa com CD18 para formar o receptor de complemento e a molécula de adesão Mac-1. Entretanto, os estudos, apresentados neste trabalho, mostram que metade de cada subtipo de B-1 (B-1a e B-1b) não expressa CD11b. As células B-1 CD11b+ são maiores, mais granulosas e expressam quantidades maiores de IgM de superfície. As células CD11b+ possuem uma curiosa tendência de se juntar e formar duplas (doublets) fortemente ligadas entre si que estão presentes em abundância no peritônio de camundongos adultos. Além de ligarem entre si, as células B-1 podem formar duplas com macrófagos PM-1 e PM-2. Durante a ontogenia, as células CD11b- surgem primeiro no peritônio e são as progenitoras das células B-1 CD11b+. Após estímulo inflamatório (LPS í. v.) os linfócitos B-1 CD11b+ migram do peritônio para o baço, onde proliferam e transformam-se em células secretoras de anticorpos (plasmócitos). No peritônio, as células B-1 não são capazes de se diferenciar em plasmócitos (células CD138high). Os resultados apresentados aqui mostraram que, diferentemente dos macrófagos PM-2, os PM-1 são os responsáveis por inibir a formação de células secretoras de anticorpos derivadas de B-1. Em suma, nossos dados sugerem que, mediante estímulo inflamatório, as células B-1 maduras (CD11b+) migram do peritônio para o baço, afastandose de macrófagos PM-1. Já no baço, as células B-1 encontram um micro-ambiente favorável para se proliferarem e diferenciarem-se em plasmócitos, secretando a maioria dos anticorpos naturais vistos logo nas primeiras horas pós-estímulo. / Mouse peritoneal cavity (PerC) represents the source for a variety of cellular subsets of the immune system. In early studies, marred by Iimited methodological tools, it was thought that macrophages comprise roughly 90% of total PerC cells. Shortly thereafter, it was recognized that, beside macrophages, the mouse peritoneal cavity shelters large amount of B-lymphocytes, specially the B-1 subset. In essence, by applying contemporary technology, studies presented here show that, roughly 30% of PerC cells comprise macrophages, 55% comprise B-1 cells, which 40% represents the B-1 a subset and roughly 15% are B-1b cells. The remaining 15%-20% of PerC cells comprise a variety of known immune cells, including B-2, T, NK and eosinophils. In addition, there were some other cellular subsets that could not be identified in these studies, probably due to limited cell surface molecules analyzed. Surprisingly, the data presented here show that peritoneal macrophages represent a highly heterogeneous population. Based on the co-expression of both CD11b and F4/80, we have identified two functionally distinct subsets of peritoneal macrophages, named here as PM-1 (CD11bhigh, F480high) and PM-2 (CD11bint, F4/80low). PM-2 are less abundant (-10% within total macrophages) in the PerC of unstimulated mouse, however, unlike PM-1, these cells are able to spread in spindle (bipolar) morphology upon sorting and in vitro culture. Curiously, PM-2 is the only PerC macrophage that expresses surface MHC-II. In addition, one third of PM-2 population expresses CD11c, a universal marker for dendritic cells. In turn, PM-1 cells are round shaped cells, represent the majority of PerC macrophages (-90%) and secrete high amounts of NO upon LPS stimulation. In vivo phagocytosis assay revealed that both cells could internalize bacteria, however, PM-2 cells showed to be more efficient, in that it was able to phagocyte higher amounts of bacteria when compared to PM-1. After i.p. in vivo stimulation, the absolute number and percentage of PM-2 cells increase drastically in the peritoneum, reaching almost half of the total PerC macrophages. Importantly, PM-1 and PM-2 macrophages seem not to represent PerC monocytes since it does not share any of the phenotype expressed by blood monocytes. Interestingly, in addition to PM-1 and PM-2, some other cellular subsets in the PerC, such as eosinophils, are able to express CD11b and F4/80. PerC B-1 cells have long been known to express CD11b, which is co-expressed with CD18 to form the Mac-1/CR3 complement receptor and adhesion molecule. However, although all PerC B-1 cells are commonly believed to express CD11b, we show here that nearly half of the cells in each of the PerC B-1 subsets (B-1a and B-1b) do not express this surface receptor. The CD11b+ cells in each B-1 subset are larger, more granular and express higher levels of surface IgM than the CD11b- B-1 cells. Surprisingly, the CD11b+ B-1 subset has the curious tendency to initiate the formation of tightly associated doublets that are present at high frequency in adult PerC. In addition to binding to each other, B-1 cells can also form doublets with PM-1 and PM-2. During ontogeny, CD11b- B-1 cells arise earlier in the mouse PerC and are the progenitors of CD11b+ B-1 cells. Upon LPS stimulation, PerC CD11b+ B-1 cells migrate to the spleen where they proliferate and differentiate into antibody-secreting cells (plasma cells). Within the PerC, B-1 cells are not able to differentiate into plasma cells (CD138high cells). The data shown in here reveal that, unlike PM-2, PM-1 macrophages are the cellular subset responsible for inhibiting the formation of B-1-derived antibody-secreting cells. Altogether, our data suggest that, upon inflammatory stimuli, mature CD11b+ B-1 cells migrate from the PerC to the spleen, avoiding the inhibitory effect of PM-1 cells. In the spleen, B-1 cells find an appropriate environment to proliferate and terminally differentiate into antibody-secreting cells, thus, secreting the majority of immunoglobulin seen in few hours after in vivo stimulation.

CD11b

CD11b

F4/80

F4/80

FACS (Citometria de fluxo)

FACS (Flow cytometry)

LPS

LPS

Plasma cell

Plasmócitos

Caractérisation de l'effet des adjuvants CpG et toxine choléra sur la réponse immunitaire générée par le fimbriae F4 administré oralement chez le porc

Delisle, Benjamin

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

Fimbriae F4

CpG

Réponse immunitaire

Porc

F4 fimbriae

CpG

Immune response

Escherichia coli enterotoxigenic (ETEC)

Pig

Caractérisation de l'effet des adjuvants CpG et toxine choléra sur la réponse immunitaire générée par le fimbriae F4 administré oralement chez le porc

Delisle, Benjamin

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Fimbriae F4

CpG

Réponse immunitaire

Porc

F4 fimbriae

CpG

Immune response

Escherichia coli enterotoxigenic (ETEC)

Pig

The synchronization of GDP growth in the G7 during US recessions

Antonakakis, Nikolaos, Scharler, Johann

January 2012

Using the dynamic conditional correlation (DCC) model due to Engle (2002), we estimate time varying correlations of quarterly real GDP growth among the G7 countries. In general, we find that rather heterogeneous patterns of international synchronization exist during US recessions. During the 2007-2009 recession, however, international co-movement increased substantially. (authors' abstract)

JEL E3, E32, F4, F41

Vaccins à base de plante comme alternatives aux antibiotiques : évaluation du potentiel d'un extrait de tabac contenant rFaeGntd/dsc d’Escherichia coli entérotoxigénique (ETEC) à induire une réponse immunitaire chez le procelet sevré.

Bourdages, Nadia

January 2016

La diarrhée post-sevrage causée par Escherichia coli entérotoxigénique présentant le fimbriae F4 (ETEC F4+) cause actuellement des pertes économiques importantes dans l’industrie porcine canadienne. Afin de mieux contrôler cette maladie, et afin d’offrir une alternative à l’utilisation excessive d’antibiotiques, le projet décrit dans ce mémoire évalue la capacité de la sous-unité majeure du fimbriae F4, FaeG, à protéger les porcelets contre ETEC F4+. Trois phases animales ont été réalisées afin de tester séparément et de façon combinée l’effet de FaeG sous forme d’émulsion orale et sous forme d’injection intramusculaire (IM). Les analyses de dosages d’anticorps spécifiques et de proliférations lymphocytaires effectuées sur les échantillons recueillis à chaque phase animale permirent d’évaluer la réponse immunitaire mucosale et systémique. Les résultats finaux obtenus ont démontré un effet des injections IM sur l’activation de la production d’anticorps sanguins ainsi que sur la prolifération de cellules mononucléées sanguines (CMS). L’évaluation de l’expression de différents gènes dans les ganglions mésentériques et dans la muqueuse iléale a permis d’observer une modulation de l’expression de certains gènes (TLR4, NFκBIA, IFNg, CCL20, CXCL2, IL4 et IL17), mais également l’absence de modulation sur plusieurs gènes attendus. Au final, certains effets secondaires observés lors des immunisations de la dernière phase animale, tels que la diarrhée, la difficulté à respirer et la faiblesse, ont nécessité des analyses supplémentaires. Il a ainsi été déterminé que plusieurs porcelets ont subi une réaction de type anaphylactique aux immunisations reçues à la dernière phase animale, bien que la composante exacte causant cette réaction soit inconnue. En conclusion, bien qu’une réponse immunitaire puisse être déclenchée par FaeG, d’autres études seront nécessaires afin de développer un vaccin oral contre ETEC F4+

Escherichia coli entérotoxigénique

Diarrhée post-sevrage

Fimbriae F4

Porcelets

Vaccin oral

Sous-unité majeure FaeG

F4ac-fimbrial-binding proteins in porcine milk and the absorption of colostral proteins by piglets

Huang, Yanyun

13 November 2008

F4 positive enterotoxigenic Escherichia coli (ETEC) is the most common pathogen causing neonatal diarrhea in piglets. The pathogenesis requires the attachment of ETEC to the intestinal brush border, mediated by F4 fimbria. Colostral anti-F4 antibodies and some non-immunoglobulin porcine skim milk proteins can bind F4 and prevent colonization and infection by F4-positive ETEC. Little is known, however, about the F4-binding ability of porcine milk fat globule membrane (MFGM) proteins. In addition, the knowledge of the absorption of porcine colostral proteins into the blood of neonatal piglets is limited, despite the well accepted concept that in neonatal piglets, protein absorption from the intestine is non-selective.<p> In this study, the ability of porcine MFGM proteins to bind purified F4ac (one of the three subtypes of F4 fimbriae) was investigated. Porcine MFGM proteins were first separated by 2D SDS-PAGE and subsequently identified by mass spectrometry. Overlay western Blot was then employed to demonstrate the interaction between porcine MFGM proteins and purified F4ac. Several proteins from porcine MFGM reacted with F4ac, and of these, lactadherin, butyrophilin, adipophilin, and acyl-CoA synthetase 3 reacted strongly. The biological function of these proteins in vivo was not investigated but it is possible that their interaction with F4ac positive ETEC interferes with bacterial attachment and colonization. In order to investigate protein absorption by neonatal piglets after natural suckling, the protein profiles of the plasma of pre-suckling and 24 h post-suckling neonatal piglets were studied by 2D SDS-PAGE. Those plasma proteins that increased prominently after suckling were then identified by mass spectrometry. Only immunoglobulins were unequivocally determined to be absorbed, because they were absent before suckling and present in large quantity in plasma 24 h after suckling. The absorption of other colostral proteins was either equivocal or not detectable by our detection methods. These results suggest that, unlike immunoglobulins, major non-immunoglobulin proteins in porcine colostrum may not be absorbed into systemic circulation in substantial amounts.

protein absorption

fimbrial-binding proteins

F4 fimbria

Enterotoxigenic Escherichia coli

porcine milk

milk fat globule membrane