Rgs13 constrains early B cell responses and limits germinal center sizes

Germinal centers (GCs) are microanatomic structures that develop in secondary lymphoid organs in response to antigenic stimulation. Within GCs B cells clonally expand and their immunoglobulin genes undergo class switch recombination and somatic hypermutation. Transcriptional profiling has identified...

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Veröffentlicht in:	PloS one 2013-03, Vol.8 (3), p.e60139-e60139
Hauptverfasser:	Hwang, Il-Young, Hwang, Kyung-Sun, Park, Chung, Harrison, Kathleen A, Kehrl, John H
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Animals Antigens B cells B-Lymphocytes - immunology Biology Cell cycle Cell division Cell membranes Cell Proliferation Cell size Chemokines Class switching Cyclic AMP response element-binding protein Enzyme-Linked Immunosorbent Assay Exons - genetics Flow Cytometry Gene expression Genes Germinal Center - metabolism Germinal centers Guanosine triphosphatases Guanosinetriphosphatase Immunization Immunoblotting Immunoglobulins Immunohistochemistry Immunology Infectious diseases Kinases Laboratories Ligands Lymph nodes Lymphatic system Lymphocyte receptors Lymphocytes Lymphocytes B Membranes Memory cells Mice Mice, Inbred C57BL Microscopy Microscopy, Confocal Mutation Nuclei (cytology) Organs Plasma cells Proteins Real-Time Polymerase Chain Reaction Recombination RGS Proteins - genetics RGS Proteins - metabolism Signaling Somatic hypermutation Transcription Transcription (Genetics) Translocation
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description	Germinal centers (GCs) are microanatomic structures that develop in secondary lymphoid organs in response to antigenic stimulation. Within GCs B cells clonally expand and their immunoglobulin genes undergo class switch recombination and somatic hypermutation. Transcriptional profiling has identified a number of genes that are prominently expressed in GC B cells. Among them is Rgs13, which encodes an RGS protein with a dual function. Its canonical function is to accelerate the intrinsic GTPase activity of heterotrimeric G-protein α subunits at the plasma membrane, thereby limiting heterotrimeric G-protein signaling. A unique, non-canonical function of RGS13 occurs following translocation to the nucleus, where it represses CREB transcriptional activity. The functional role of RGS13 in GC B cells is unknown. To create a surrogate marker for Rgs13 expression and a loss of function mutation, we inserted a GFP coding region into the Rgs13 genomic locus. Following immunization GFP expression rapidly increased in activated B cells, persisted in GC B cells, but declined in newly generated memory B and plasma cells. Intravital microscopy of the inguinal lymph node (LN) of immunized mice revealed the rapid appearance of GFP(+) cells at LN interfollicular regions and along the T/B cell borders, and eventually within GCs. Analysis of WT, knock-in, and mixed chimeric mice indicated that RGS13 constrains extra-follicular plasma cell generation, GC size, and GC B cell numbers. Analysis of select cell cycle and GC specific genes disclosed an aberrant gene expression profile in the Rgs13 deficient GC B cells. These results indicate that RGS13, likely acting at cell membranes and in nuclei, helps coordinate key decision points during the expansion and differentiation of naive B cells.
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Within GCs B cells clonally expand and their immunoglobulin genes undergo class switch recombination and somatic hypermutation. Transcriptional profiling has identified a number of genes that are prominently expressed in GC B cells. Among them is Rgs13, which encodes an RGS protein with a dual function. Its canonical function is to accelerate the intrinsic GTPase activity of heterotrimeric G-protein α subunits at the plasma membrane, thereby limiting heterotrimeric G-protein signaling. A unique, non-canonical function of RGS13 occurs following translocation to the nucleus, where it represses CREB transcriptional activity. The functional role of RGS13 in GC B cells is unknown. To create a surrogate marker for Rgs13 expression and a loss of function mutation, we inserted a GFP coding region into the Rgs13 genomic locus. Following immunization GFP expression rapidly increased in activated B cells, persisted in GC B cells, but declined in newly generated memory B and plasma cells. Intravital microscopy of the inguinal lymph node (LN) of immunized mice revealed the rapid appearance of GFP(+) cells at LN interfollicular regions and along the T/B cell borders, and eventually within GCs. Analysis of WT, knock-in, and mixed chimeric mice indicated that RGS13 constrains extra-follicular plasma cell generation, GC size, and GC B cell numbers. Analysis of select cell cycle and GC specific genes disclosed an aberrant gene expression profile in the Rgs13 deficient GC B cells. 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Within GCs B cells clonally expand and their immunoglobulin genes undergo class switch recombination and somatic hypermutation. Transcriptional profiling has identified a number of genes that are prominently expressed in GC B cells. Among them is Rgs13, which encodes an RGS protein with a dual function. Its canonical function is to accelerate the intrinsic GTPase activity of heterotrimeric G-protein α subunits at the plasma membrane, thereby limiting heterotrimeric G-protein signaling. A unique, non-canonical function of RGS13 occurs following translocation to the nucleus, where it represses CREB transcriptional activity. The functional role of RGS13 in GC B cells is unknown. To create a surrogate marker for Rgs13 expression and a loss of function mutation, we inserted a GFP coding region into the Rgs13 genomic locus. Following immunization GFP expression rapidly increased in activated B cells, persisted in GC B cells, but declined in newly generated memory B and plasma cells. Intravital microscopy of the inguinal lymph node (LN) of immunized mice revealed the rapid appearance of GFP(+) cells at LN interfollicular regions and along the T/B cell borders, and eventually within GCs. Analysis of WT, knock-in, and mixed chimeric mice indicated that RGS13 constrains extra-follicular plasma cell generation, GC size, and GC B cell numbers. Analysis of select cell cycle and GC specific genes disclosed an aberrant gene expression profile in the Rgs13 deficient GC B cells. 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Within GCs B cells clonally expand and their immunoglobulin genes undergo class switch recombination and somatic hypermutation. Transcriptional profiling has identified a number of genes that are prominently expressed in GC B cells. Among them is Rgs13, which encodes an RGS protein with a dual function. Its canonical function is to accelerate the intrinsic GTPase activity of heterotrimeric G-protein α subunits at the plasma membrane, thereby limiting heterotrimeric G-protein signaling. A unique, non-canonical function of RGS13 occurs following translocation to the nucleus, where it represses CREB transcriptional activity. The functional role of RGS13 in GC B cells is unknown. To create a surrogate marker for Rgs13 expression and a loss of function mutation, we inserted a GFP coding region into the Rgs13 genomic locus. Following immunization GFP expression rapidly increased in activated B cells, persisted in GC B cells, but declined in newly generated memory B and plasma cells. Intravital microscopy of the inguinal lymph node (LN) of immunized mice revealed the rapid appearance of GFP(+) cells at LN interfollicular regions and along the T/B cell borders, and eventually within GCs. Analysis of WT, knock-in, and mixed chimeric mice indicated that RGS13 constrains extra-follicular plasma cell generation, GC size, and GC B cell numbers. Analysis of select cell cycle and GC specific genes disclosed an aberrant gene expression profile in the Rgs13 deficient GC B cells. These results indicate that RGS13, likely acting at cell membranes and in nuclei, helps coordinate key decision points during the expansion and differentiation of naive B cells.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23533672</pmid><doi>10.1371/journal.pone.0060139</doi><tpages>e60139</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analysis Animals Antigens B cells B-Lymphocytes - immunology Biology Cell cycle Cell division Cell membranes Cell Proliferation Cell size Chemokines Class switching Cyclic AMP response element-binding protein Enzyme-Linked Immunosorbent Assay Exons - genetics Flow Cytometry Gene expression Genes Germinal Center - metabolism Germinal centers Guanosine triphosphatases Guanosinetriphosphatase Immunization Immunoblotting Immunoglobulins Immunohistochemistry Immunology Infectious diseases Kinases Laboratories Ligands Lymph nodes Lymphatic system Lymphocyte receptors Lymphocytes Lymphocytes B Membranes Memory cells Mice Mice, Inbred C57BL Microscopy Microscopy, Confocal Mutation Nuclei (cytology) Organs Plasma cells Proteins Real-Time Polymerase Chain Reaction Recombination RGS Proteins - genetics RGS Proteins - metabolism Signaling Somatic hypermutation Transcription Transcription (Genetics) Translocation
title	Rgs13 constrains early B cell responses and limits germinal center sizes
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