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1.
J Biol Chem ; 298(4): 101704, 2022 04.
Artigo em Inglês | MEDLINE | ID: mdl-35148986

RESUMO

While adaptive immunity recognizes a nearly infinite range of antigenic determinants, immune tolerance renders adaptive immunity vulnerable to microbes decorated in self-like antigens. Recent studies suggest that sugar-binding proteins galectin-4 and galectin-8 bind microbes expressing blood group antigens. However, the binding profile and potential antimicrobial activity of other galectins, particularly galectin-9 (Gal-9), has remained incompletely defined. Here, we demonstrate that while Gal-9 possesses strong binding preference for ABO(H) blood group antigens, each domain exhibits distinct binding patterns, with the C-terminal domain (Gal-9C) exhibiting higher binding to blood group B than the N-terminal domain (Gal-9N). Despite this binding preference, Gal-9 readily killed blood group B-positive Escherichia coli, whereas Gal-9N displayed higher killing activity against this microbe than Gal-9C. Utilization of microarrays populated with blood group O antigens from a diverse array of microbes revealed that Gal-9 can bind various microbial glycans, whereas Gal-9N and Gal-9C displayed distinct and overlapping binding preferences. Flow cytometric examination of intact microbes corroborated the microbial glycan microarray findings, demonstrating that Gal-9, Gal-9N, and Gal-9C also possess the capacity to recognize distinct strains of Providencia alcalifaciens and Klebsiella pneumoniae that express mammalian blood group-like antigens while failing to bind related strains that do not express mammalian-like glycans. In each case of microbial binding, Gal-9, Gal-9N, and Gal-9C induced microbial death. In contrast, while Gal-9, Gal-9N, and Gal-9C engaged red blood cells, each failed to induce hemolysis. These data suggest that Gal-9 recognition of distinct microbial strains may provide antimicrobial activity against molecular mimicry.


Assuntos
Anti-Infecciosos , Antígenos de Grupos Sanguíneos , Galectinas , Animais , Antígenos de Grupos Sanguíneos/genética , Antígenos de Grupos Sanguíneos/metabolismo , Galectinas/metabolismo , Mamíferos/metabolismo , Polissacarídeos/metabolismo
2.
J Immunol ; 198(7): 2671-2680, 2017 04 01.
Artigo em Inglês | MEDLINE | ID: mdl-28250159

RESUMO

Although RBC transfusion can result in the development of anti-RBC alloantibodies that increase the probability of life-threatening hemolytic transfusion reactions, not all patients generate anti-RBC alloantibodies. However, the factors that regulate immune responsiveness to RBC transfusion remain incompletely understood. One variable that may influence alloantibody formation is RBC alloantigen density. RBC alloantigens exist at different densities on the RBC surface and likewise exhibit distinct propensities to induce RBC alloantibody formation. However, although distinct alloantigens reside on the RBC surface at different levels, most alloantigens also represent completely different structures, making it difficult to separate the potential impact of differences in Ag density from other alloantigen features that may also influence RBC alloimmunization. To address this, we generated RBCs that stably express the same Ag at different levels. Although exposure to RBCs with higher Ag levels induces a robust Ab response, RBCs bearing low Ag levels fail to induce RBC alloantibodies. However, exposure to low Ag-density RBCs is not without consequence, because recipients subsequently develop Ag-specific tolerance. Low Ag-density RBC-induced tolerance protects higher Ag-density RBCs from immune-mediated clearance, is Ag specific, and occurs through the induction of B cell unresponsiveness. These results demonstrate that Ag density can potently impact immune outcomes following RBC transfusion and suggest that RBCs with altered Ag levels may provide a unique tool to induce Ag-specific tolerance.


Assuntos
Transfusão de Eritrócitos/efeitos adversos , Eritrócitos/imunologia , Tolerância Imunológica/imunologia , Isoantígenos/imunologia , Glicoproteínas de Membrana/imunologia , Metaloendopeptidases/imunologia , Animais , Citometria de Fluxo , Humanos , Imunofenotipagem , Isoanticorpos/imunologia , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Transgênicos
3.
Proteomics ; 16(24): 3111-3125, 2016 12.
Artigo em Inglês | MEDLINE | ID: mdl-27582340

RESUMO

Protein-ligand interactions serve as fundamental regulators of numerous biological processes. Among protein-ligand pairs, glycan binding proteins (GBPs) and the glycans they recognize represent unique and highly complex interactions implicated in a broad range of regulatory activities. With few exceptions, cell surface receptors and secreted proteins are heavily glycosylated. As these glycans often represent highly regulatable post-translational modifications, alterations in glycosylation can fundamentally impact GBP recognition. Among GBPs, galectins in particular appear to engage a diverse set of glycan determinants to impact a broad range of biological processes. In this review, we will explore factors that impact galectin activity, including the effect of glycan modification on galectin-glycan interactions.


Assuntos
Galectinas/metabolismo , Polissacarídeos/metabolismo , Sequência de Aminoácidos , Animais , Antígenos de Grupos Sanguíneos/química , Antígenos de Grupos Sanguíneos/metabolismo , Sequência de Carboidratos , Cromatografia de Afinidade , Galectinas/química , Glicolipídeos/química , Glicolipídeos/metabolismo , Humanos , Ligantes , Simulação de Acoplamento Molecular , Polissacarídeos/química , Ligação Proteica , Processamento de Proteína Pós-Traducional
4.
Am J Pathol ; 185(8): 2206-18, 2015 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-26216285

RESUMO

The intestinal epithelium is a dynamic barrier that maintains the distinct environments of intestinal tissue and lumen. Epithelial barrier function is defined principally by tight junctions, which, in turn, depend on the regulated expression of claudin family proteins. Claudins are expressed differentially during intestinal epithelial cell (IEC) differentiation. However, regulatory mechanisms governing claudin expression during epithelial differentiation are incompletely understood. We investigated the molecular mechanisms regulating claudin-7 during IEC differentiation. Claudin-7 expression is increased as epithelial cells differentiate along the intestinal crypt-luminal axis. By using model IECs we observed increased claudin-7 mRNA and nascent heteronuclear RNA levels during differentiation. A screen for potential regulators of the CLDN7 gene during IEC differentiation was performed using a transcription factor/DNA binding array, CLDN7 luciferase reporters, and in silico promoter analysis. We identified hepatocyte nuclear factor 4α as a regulatory factor that bound endogenous CLDN7 promoter in differentiating IECs and stimulated CLDN7 promoter activity. These findings support a role of hepatocyte nuclear factor 4α in controlling claudin-7 expression during IEC differentiation.


Assuntos
Diferenciação Celular/genética , Claudinas/metabolismo , Células Epiteliais/metabolismo , Fator 4 Nuclear de Hepatócito/metabolismo , Mucosa Intestinal/metabolismo , Células CACO-2 , Claudinas/genética , Células Epiteliais/citologia , Regulação da Expressão Gênica , Células HT29 , Fator 4 Nuclear de Hepatócito/genética , Humanos , Mucosa Intestinal/citologia , Regiões Promotoras Genéticas
6.
J Clin Invest ; 127(9): 3510-3520, 2017 Sep 01.
Artigo em Inglês | MEDLINE | ID: mdl-28783045

RESUMO

In response to injury, epithelial cells migrate and proliferate to cover denuded mucosal surfaces and repair the barrier defect. This process is orchestrated by dynamic crosstalk between immune cells and the epithelium; however, the mechanisms involved remain incompletely understood. Here, we report that IL-10 was rapidly induced following intestinal mucosal injury and was required for optimal intestinal mucosal wound closure. Conditional deletion of IL-10 specifically in CD11c-expressing cells in vivo implicated macrophages as a critical innate immune contributor to IL-10-induced wound closure. Consistent with these findings, wound closure in T cell- and B cell-deficient Rag1-/- mice was unimpaired, demonstrating that adaptive immune cells are not absolutely required for this process. Further, following mucosal injury, macrophage-derived IL-10 resulted in epithelial cAMP response element-binding protein (CREB) activation and subsequent synthesis and secretion of the pro-repair WNT1-inducible signaling protein 1 (WISP-1). WISP-1 induced epithelial cell proliferation and wound closure by activating epithelial pro-proliferative pathways. These findings define the involvement of macrophages in regulating an IL-10/CREB/WISP-1 signaling axis, with broad implications in linking innate immune activation to mucosal wound repair.


Assuntos
Proteínas de Sinalização Intercelular CCN/metabolismo , Interleucina-10/metabolismo , Macrófagos/metabolismo , Proteínas Proto-Oncogênicas/metabolismo , Animais , Antígenos CD11/metabolismo , Proliferação de Células , Colo/patologia , Proteína de Ligação ao Elemento de Resposta ao AMP Cíclico/metabolismo , Células Epiteliais/citologia , Células Epiteliais/metabolismo , Deleção de Genes , Regulação da Expressão Gênica , Humanos , Inflamação , Mucosa Intestinal/metabolismo , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Knockout , Transdução de Sinais , Cicatrização
7.
Tissue Barriers ; 4(3): e1214038, 2016.
Artigo em Inglês | MEDLINE | ID: mdl-27583195

RESUMO

Colonic enterocytes form a rapidly renewing epithelium and barrier to luminal antigens. During renewal, coordinated expression of the claudin family of genes is vital to maintain the epithelial barrier. Disruption of this process contributes to barrier compromise and mucosal inflammatory diseases. However, little is known about the regulation of this critical aspect of epithelial cell differentiation. In order to identify claudin regulatory factors we utilized high-throughput gene microarrays and correlation analyses. We identified complex expression gradients for the transcription factors Hopx, Hnf4a, Klf4 and Tcf7l2, as well as 12 claudins, during differentiation. In vitro confirmatory methods identified 2 pathways that stimulate claudin expression; Hopx/Klf4 activation of Cldn4, 7 and 15, and Tcf7l2/Hnf4a up-regulation of Cldn23. Chromatin immunoprecipitation confirmed a Tcf7l2/Hnf4a/Claudin23 cascade. Furthermore, Hnf4a conditional knockout mice fail to induce Cldn23 during colonocyte differentiation. In conclusion, we report a comprehensive screen of colonic claudin gene expression and discover spatiotemporal Hopx/Klf4 and Tcf7l2/Hnf4a signaling as stimulators of colonic epithelial barrier differentiation.


Assuntos
Diferenciação Celular , Claudinas/metabolismo , Mucosa Intestinal/metabolismo , Nicho de Células-Tronco , Animais , Claudinas/genética , Colo/citologia , Colo/metabolismo , Regulação da Expressão Gênica no Desenvolvimento , Fator 4 Nuclear de Hepatócito/genética , Fator 4 Nuclear de Hepatócito/metabolismo , Proteínas de Homeodomínio/genética , Proteínas de Homeodomínio/metabolismo , Mucosa Intestinal/citologia , Fator 4 Semelhante a Kruppel , Fatores de Transcrição Kruppel-Like/genética , Fatores de Transcrição Kruppel-Like/metabolismo , Masculino , Camundongos , Camundongos Endogâmicos C57BL , Proteína 2 Semelhante ao Fator 7 de Transcrição/genética , Proteína 2 Semelhante ao Fator 7 de Transcrição/metabolismo
8.
J Vis Exp ; (101): e53112, 2015 Jul 12.
Artigo em Inglês | MEDLINE | ID: mdl-26274554

RESUMO

The colonic mucosal tissue provides a vital barrier to luminal antigens. This barrier is composed of a monolayer of simple columnar epithelial cells. The colonic epithelium is dynamically turned over and epithelial cells are generated in the stem cell containing crypts of Lieberkühn. Progenitor cells produced in the crypt-bases migrate toward the luminal surface, undergoing a process of cellular differentiation before being shed into the gut lumen. In order to study these processes at the molecular level, we have developed a simple method for the microdissection of two spatially distinct regions of the colonic mucosa; the proliferative crypt zone, and the differentiated surface epithelial cells. Our objective is to isolate specific crypt and surface epithelial cell populations from mouse colonic mucosa for the isolation of RNA and protein.


Assuntos
Colo/citologia , Crioultramicrotomia/métodos , Mucosa Intestinal/citologia , Microdissecção/métodos , Animais , Diferenciação Celular/fisiologia , Células Epiteliais/citologia , Imunofluorescência/métodos , Camundongos , Camundongos Endogâmicos C57BL , Microscopia Confocal/métodos , Células-Tronco/citologia
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