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1.
Immunity ; 43(1): 146-60, 2015 Jul 21.
Artículo en Inglés | MEDLINE | ID: mdl-26187413

RESUMEN

Human group 1 ILCs consist of at least three phenotypically distinct subsets, including NK cells, CD127(+) ILC1, and intraepithelial CD103(+) ILC1. In inflamed intestinal tissues from Crohn's disease patients, numbers of CD127(+) ILC1 increased at the cost of ILC3. Here we found that differentiation of ILC3 to CD127(+) ILC1 is reversible in vitro and in vivo. CD127(+) ILC1 differentiated to ILC3 in the presence of interleukin-2 (IL-2), IL-23, and IL-1ß dependent on the transcription factor RORγt, and this process was enhanced in the presence of retinoic acid. Furthermore, we observed in resection specimen from Crohn's disease patients a higher proportion of CD14(+) dendritic cells (DC), which in vitro promoted polarization from ILC3 to CD127(+) ILC1. In contrast, CD14(-) DCs promoted differentiation from CD127(+) ILC1 toward ILC3. These observations suggest that environmental cues determine the composition, function, and phenotype of CD127(+) ILC1 and ILC3 in the gut.


Asunto(s)
Subunidad p35 de la Interleucina-12/inmunología , Subunidad p19 de la Interleucina-23/inmunología , Subunidad alfa del Receptor de Interleucina-7/inmunología , Mucosa Intestinal/inmunología , Linfocitos/inmunología , Animales , Diferenciación Celular/inmunología , Células Cultivadas , Enfermedad de Crohn/inmunología , Células Dendríticas/inmunología , Humanos , Interleucina-1beta/inmunología , Interleucina-2/inmunología , Mucosa Intestinal/citología , Células Asesinas Naturales/inmunología , Receptores de Lipopolisacáridos/inmunología , Transfusión de Linfocitos , Ratones , Ratones Endogámicos C57BL , Ratones Endogámicos NOD , Ratones Noqueados , Ratones SCID , Miembro 3 del Grupo F de la Subfamilia 1 de Receptores Nucleares/inmunología , Receptores de Ácido Retinoico/metabolismo , Receptor alfa de Ácido Retinoico , Receptor gamma X Retinoide/metabolismo , Tretinoina/farmacología , Receptor de Ácido Retinoico gamma
2.
Immunity ; 41(2): 230-43, 2014 Aug 21.
Artículo en Inglés | MEDLINE | ID: mdl-25148024

RESUMEN

CD8αα(+) intraepithelial lymphocytes (IELs) are instrumental in maintaining the epithelial barrier in the intestine. Similar to natural killer cells and other innate lymphoid cells, CD8αα(+) IELs constitutively express the T-box transcription factor T-bet. However, the precise role of T-bet for the differentiation or function of IELs is unknown. Here we show that mice genetically deficient for T-bet lacked both TCRαß(+) and TCRγδ(+) CD8αα(+) IELs and thus are more susceptible to chemically induced colitis. Although T-bet was induced in thymic IEL precursors (IELPs) as a result of agonist selection and interleukin-15 (IL-15) receptor signaling, it was dispensable for the generation of IELPs. Subsequently, T-bet was required for the IL-15-dependent activation, differentiation, and expansion of IELPs in the periphery. Our study reveals a function of T-bet as a central transcriptional regulator linking agonist selection and IL-15 signaling with the emergence of CD8αα(+) IELs.


Asunto(s)
Antígenos CD8/biosíntesis , Interleucina-15/genética , Receptores de Antígenos de Linfocitos T alfa-beta/genética , Receptores de Antígenos de Linfocitos T gamma-delta/genética , Proteínas de Dominio T Box/genética , Animales , Linfocitos T CD4-Positivos/inmunología , Linfocitos T CD8-positivos/inmunología , Diferenciación Celular/inmunología , Colitis/inducido químicamente , Colitis/inmunología , Células Epiteliales/inmunología , Interleucina-15/inmunología , Mucosa Intestinal/citología , Mucosa Intestinal/inmunología , Intestinos/citología , Intestinos/inmunología , Ratones , Ratones Endogámicos C57BL , Ratones Noqueados , Receptores de Interleucina-15/inmunología , Transducción de Señal/inmunología , Proteínas de Dominio T Box/biosíntesis
3.
Nucleic Acids Res ; 42(10): e84, 2014 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-24753413

RESUMEN

Targeted endonucleases including zinc finger nucleases (ZFNs) and clustered regularly interspaced short palindromic repeats (CRISPRs)/Cas9 are increasingly being used for genome editing in higher species. We therefore devised a broadly applicable and versatile method for increasing editing efficiencies by these tools. Briefly, 2A peptide-coupled co-expression of fluorescent protein and nuclease was combined with fluorescence-activated cell sorting (FACS) to allow for efficient isolation of cell populations with increasingly higher nuclease expression levels, which translated into increasingly higher genome editing rates. For ZFNs, this approach, combined with delivery of donors as single-stranded oligodeoxynucleotides and nucleases as messenger ribonucleic acid, enabled high knockin efficiencies in demanding applications, including biallelic codon conversion frequencies reaching 30-70% at high transfection efficiencies and ∼ 2% at low transfection efficiencies, simultaneous homozygous knockin mutation of two genes with ∼ 1.5% efficiency as well as generation of cell pools with almost complete codon conversion via three consecutive targeting and FACS events. Observed off-target effects were minimal, and when occurring, our data suggest that they may be counteracted by selecting intermediate nuclease levels where off-target mutagenesis is low, but on-target mutagenesis remains relatively high. The method was also applicable to the CRISPR/Cas9 system, including CRISPR/Cas9 mutant nickase pairs, which exhibit low off-target mutagenesis compared to wild-type Cas9.


Asunto(s)
Proteínas Asociadas a CRISPR/genética , Desoxirribonucleasas/genética , Técnicas de Sustitución del Gen , Proteínas Luminiscentes/genética , Proteínas Asociadas a CRISPR/metabolismo , Línea Celular Tumoral , Separación Celular , Desoxirribonucleasas/metabolismo , Citometría de Flujo , Colorantes Fluorescentes , Genoma , Humanos , Células K562 , Proteínas Luminiscentes/metabolismo , Péptidos/química , Plásmidos/genética , Dedos de Zinc
4.
Methods Mol Biol ; 1559: 255-265, 2017.
Artículo en Inglés | MEDLINE | ID: mdl-28063049

RESUMEN

The intestinal mucosa constitutes the biggest surface area of the body. It is constantly challenged by bacteria, commensal and pathogenic, protozoa, and food-derived irritants. In order to maintain homeostasis, a complex network of signaling circuits has evolved that includes contributions of immune cells. In recent years a subset of lymphocytes, which belong to the innate immune system, has caught particular attention. These so-called innate lymphoid cells (ILC) reside within the lamina propria of the small and large intestines and rapidly respond to environmental challenges. They provide immunity to various types of infections but may also contribute to organ homeostasis as they produce factors acting on epithelial cells thereby enhancing barrier integrity. Here, we describe how these cells can be isolated from their environment and provide an in-depth protocol how to visualize the various ILC subsets by flow cytometry.


Asunto(s)
Separación Celular/métodos , Citometría de Flujo/métodos , Mucosa Intestinal/citología , Linfocitos/citología , Coloración y Etiquetado/métodos , Animales , Anticuerpos/química , Antígenos CD/genética , Antígenos CD/inmunología , Biomarcadores/metabolismo , Colagenasas/química , Desoxirribonucleasa I/química , Endopeptidasas/química , Expresión Génica , Inmunidad Innata , Inmunidad Mucosa , Mucosa Intestinal/inmunología , Linfocitos/inmunología , Ratones , Ratones Endogámicos C57BL
5.
Immunol Lett ; 179: 9-18, 2016 11.
Artículo en Inglés | MEDLINE | ID: mdl-27394700

RESUMEN

Innate lymphoid cells (ILC) have only recently been recognized as a separate entity of the lymphoid lineage. Their subpopulations share common characteristics in terms of early development and major transcriptional circuitry with their related cousins of the T cell world. It is currently hypothesized that ILCs constitute an evolutionary older version of the lymphoid immune system. They are found at all primary entry points for pathogens such as mucosal surfaces of the lung and gastrointestinal system, the skin and the liver, which is the central contact point for pathogens that breach the intestinal barrier and enter the circulation. There, ILC contribute to the first line defense as well as to organ homeostasis. However, ILC are not only involved in classical defense tasks, but also contribute to the organogenesis of lymphoid organs as well as tissue remodeling and even stem cell regeneration. ILC may, therefore, implement different functions according to their emergence in ontogeny, their development and their final tissue location. We will review here their early development from precursors of the fetal liver and the adult bone marrow as well as their late plasticity in adaptation to their environment.


Asunto(s)
Plasticidad de la Célula , Inmunidad Innata , Subgrupos Linfocitarios/inmunología , Subgrupos Linfocitarios/metabolismo , Células Precursoras de Linfocitos T/inmunología , Células Precursoras de Linfocitos T/metabolismo , Animales , Biomarcadores , Diferenciación Celular/genética , Diferenciación Celular/inmunología , Linaje de la Célula/genética , Linaje de la Célula/inmunología , Regulación del Desarrollo de la Expresión Génica , Humanos , Subgrupos Linfocitarios/citología , Fenotipo , Células Precursoras de Linfocitos T/citología , Transducción de Señal , Linfocitos T Citotóxicos/citología , Linfocitos T Citotóxicos/inmunología , Linfocitos T Citotóxicos/metabolismo , Linfocitos T Colaboradores-Inductores/citología , Linfocitos T Colaboradores-Inductores/inmunología , Linfocitos T Colaboradores-Inductores/metabolismo , Factores de Transcripción/genética , Factores de Transcripción/metabolismo
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