14 results on '"Brendolan, Andrea"'
Search Results
2. Single-cell transcriptional profiling of splenic fibroblasts reveals subset-specific innate immune signatures in homeostasis and during viral infection.
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Pezoldt, Joern, Wiechers, Carolin, Erhard, Florian, Rand, Ulfert, Bulat, Tanja, Beckstette, Michael, Brendolan, Andrea, Huehn, Jochen, Kalinke, Ulrich, Mueller, Mathias, Strobl, Birgit, Deplancke, Bart, Čičin-Šain, Luka, and Sitnik, Katarzyna M.
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HOMEOSTASIS ,FIBROBLASTS ,VIRUS diseases ,SPLEEN ,RNA sequencing ,STROMAL cells ,ENDOTHELIAL cells - Abstract
Our understanding of the composition and functions of splenic stromal cells remains incomplete. Here, based on analysis of over 20,000 single cell transcriptomes of splenic fibroblasts, we characterized the phenotypic and functional heterogeneity of these cells in healthy state and during virus infection. We describe eleven transcriptionally distinct fibroblastic cell clusters, reassuring known subsets and revealing yet unascertained heterogeneity amongst fibroblasts occupying diverse splenic niches. We further identify striking differences in innate immune signatures of distinct stromal compartments in vivo. Compared to other fibroblasts and to endothelial cells, Ly6C
+ fibroblasts of the red pulp were selectively endowed with enhanced interferon-stimulated gene expression in homeostasis, upon systemic interferon stimulation and during virus infection in vivo. Collectively, we provide an updated map of fibroblastic cell diversity in the spleen that suggests a specialized innate immune function for splenic red pulp fibroblasts. Joern Pezoldt et al. analyze mouse spleen fibroblasts using single cell RNA sequencing, revealing 11 distinct clusters of fibroblastic cells or subtypes. Their results collectively provide further insight into the transcriptional identities of splenic fibroblasts and innate immune signatures of distinct stromal compartments. [ABSTRACT FROM AUTHOR]- Published
- 2021
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3. Investigation on the role of biallelic variants in VEGF‐C found in a patient affected by Milroy‐like lymphedema.
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Mukenge, Sylvain, Jha, Sawan K., Catena, Marco, Manara, Elena, Leppänen, Veli‐Matti, Lenti, Elisa, Negrini, Daniela, Bertelli, Matteo, Brendolan, Andrea, Jeltsch, Michael, and Aldrighetti, Luca
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ETIOLOGY of diseases ,GENETIC testing ,LYMPHEDEMA ,DEFINITIONS ,VASCULAR endothelial growth factor antagonists ,IN vitro studies ,VASCULAR endothelial growth factors - Abstract
Background: Milroy‐like disease is the diagnostic definition used for patients with phenotypes that resemble classic Milroy disease (MD) but are negative to genetic testing for FLT4. In this study, we aimed at performing a genetic characterization and biochemical analysis of VEGF‐C variations found in a female proband born with congenital edema consistent with Milroy‐like disease. Methods: The proband underwent next‐generation sequencing‐based genetic testing for a panel of genes associated with known forms of hereditary lymphedema. Segregation analysis was performed on family members by direct sequencing. In vitro studies were performed to evaluate the role of a novel identified variant. Results: Two VEGF‐C variations were found in the proband, a novel p.(Ser65Arg) and a pathogenic c.148‐3_148‐2delCA, of paternal and maternal origin, respectively. Functional characterization of the p.(Ser65Arg) variation in vitro showed alterations in VEGF‐C processing. Conclusions: Our findings reveal an interesting case in which biallelic variants in VEGF‐C are found in a patient with Milroy‐like lymphedema. These data expand our understanding of the etiology of congenital Milroy‐like lymphedema. [ABSTRACT FROM AUTHOR]
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- 2020
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4. Spleen Development and the Origin of Stromal Diversity.
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Lenti, Elisa and Brendolan, Andrea
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- 2016
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5. Lymphoid Tissue Mesenchymal Stromal Cells in Development and Tissue Remodeling.
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Genovese, Luca and Brendolan, Andrea
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TISSUE remodeling ,LYMPHOID tissue ,MESENCHYMAL stem cells ,IMMUNE response ,HOMEOSTASIS ,HEMATOPOIETIC stem cells - Abstract
Secondary lymphoid organs (SLOs) are sites that facilitate cell-cell interactions required for generating adaptive immune responses. Nonhematopoietic mesenchymal stromal cells have been shown to play a critical role in SLO function, organization, and tissue homeostasis. The stromal microenvironment undergoes profound remodeling to support immune responses. However, chronic inflammatory conditions can promote uncontrolled stromal cell activation and aberrant tissue remodeling including fibrosis, thus leading to tissue damage. Despite recent advancements, the origin and role of mesenchymal stromal cells involved in SLO development and remodeling remain unclear. [ABSTRACT FROM AUTHOR]
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- 2016
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6. Analysis of the DNA-Binding Profile and Function of TALE Homeoproteins Reveals Their Specialization and Specific Interactions with Hox Genes/Proteins.
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Penkov, Dmitry, San Martín, Daniel Mateos, Fernandez-Díaz, Luis C., Rosselló, Catalina A., Torroja, Carlos, Sánchez-Cabo, Fátima, Warnatz, H.J., Sultan, Marc, Yaspo, Marie L., Gabrieli, Arianna, Tkachuk, Vsevolod, Brendolan, Andrea, Blasi, Francesco, and Torres, Miguel
- Abstract
Summary: The interactions of Meis, Prep, and Pbx1 TALE homeoproteins with Hox proteins are essential for development and disease. Although Meis and Prep behave similarly in vitro, their in vivo activities remain largely unexplored. We show that Prep and Meis interact with largely independent sets of genomic sites and select different DNA-binding sequences, Prep associating mostly with promoters and housekeeping genes and Meis with promoter-remote regions and developmental genes. Hox target sequences associate strongly with Meis but not with Prep binding sites, while Pbx1 cooperates with both Prep and Meis. Accordingly, Meis1 shows strong genetic interaction with Pbx1 but not with Prep1. Meis1 and Prep1 nonetheless coregulate a subset of genes, predominantly through opposing effects. Notably, the TALE homeoprotein binding profile subdivides Hox clusters into two domains differentially regulated by Meis1 and Prep1. During evolution, Meis and Prep thus specialized their interactions but maintained significant regulatory coordination. [Copyright &y& Elsevier]
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- 2013
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7. Mesenchymal cell differentiation during lymph node organogenesis.
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Brendolan, Andrea and Caamaño, Jorge H.
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LYMPHOID tissue ,LYMPH nodes ,LYMPHOCYTES ,IMMUNE response ,CELL differentiation ,MORPHOGENESIS - Abstract
Secondary lymphoid tissues such as lymph nodes are essential for the interactions between antigen presenting cells and lymphocytes that result in adaptive immune responses that protect the host against invading pathogens. The specialized architecture of these organs facilitates the cognate interactions between antigen-loaded dendritic cells and lymphocytes expressing their specific receptor as well as B-T cell interactions that are at the core of long lasting adaptive immune responses. Lymph nodes develop during embryogenesis as a result of a series of cross-talk interactions between a hematopoietically derived cell lineage called lymphoid tissue inducer cells and stromal cells of mesenchymal origin to form the anlagen of these organs. This review will present an overview of the different signaling pathways and maturation steps that mesenchymal cells undergo during the process of lymph node formation such as cell specification, priming, and maturation to become lymphoid tissue stromal organizer cells. [ABSTRACT FROM AUTHOR]
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- 2012
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8. Mesenchymal Cell Differentiation During Lymph Node Organogenesis.
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Brendolan, Andrea and Caamaño, Jorge H.
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MESENCHYMAL stem cells ,PATHOGENIC microorganisms ,MORPHOGENESIS ,LYMPHOCYTES ,STROMAL cells - Abstract
Secondary lymphoid tissues such as lymph nodes are essential for the interactions between antigen presenting cells and lymphocytes that result in adaptive immune responses that protect the host against invading pathogens. The specialized architecture of these organs facilitates the cognate interactions between antigen-loaded dendritic cells and lymphocytes expressing their specific receptor as well as B-T cell interactions that are at the core of long lasting adaptive immune responses. Lymph nodes develop during embryogenesis as a result of a series of crosstalk interactions between a hematopoietically derived cell lineage called lymphoid tissue inducer cells and stromal cells of mesenchymal origin to form the anlagen of these organs. This review will present an overview of the different signaling pathways and maturation steps that mesenchymal cells undergo during the process of lymph node formation such as cell specification, priming and maturation to become lymphoid tissue stromal organizer cells. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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9. Development and function of the mammalian spleen.
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Brendolan, Andrea, Rosado, Maria Manuela, Carsetti, Rita, Selleri, Licia, and Dear, T. Neil
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SPLEEN ,HEMATOPOIETIC system ,LYMPHOID tissue ,IMMUNE system ,MOLECULAR genetics ,ORGANS (Anatomy) - Abstract
The article discusses the development and functions of a mammalian spleen. Many studies were focused on the functions of spleen in immunity and haematopoiesis. By using knockout mice, some study reveals the significant progress regarding the genetic processes governing the spleen's early development. Key genetic regulators such as TIx1 and Pbx1 were identified in the early transcriptional hierarchies that control the early patterning and proliferation of the splenic primordium.
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- 2007
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10. A Pbx1-dependent genetic and transcriptional network regulates spleen ontogeny.
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Brendolan, Andrea, Ferretti, Elisabetta, Salsi, Valentina, Moses, Kelvin, Quaggin, Susan, Blasi, Francesco, Cleary, Michael L., and Selleri, Licia
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SPLEEN ,HEMATOPOIETIC system ,ONTOGENY ,DEVELOPMENTAL biology ,GENETICS - Abstract
The genetic control of cell fate specification, morphogenesis and expansion of the spleen, a crucial lymphoid organ, is poorly understood. Recent studies of mutant mice implicate various transcription factors in spleen development, but the hierarchical relationships between these factors have not been explored. In this report, we establish a genetic network that regulates spleen ontogeny, by analyzing asplenic mice mutant for the transcription factors Pbxl, Hox11 (Tlx1), Nkx3.2 (Bapx1) and Pod1 (capsulin, Tcf21). We show that Hox11 and Nkx2.5, among the earliest known markers for splenic progenitor cells, are absent in the splenic anlage of Pbx1 homozygous mutant (-/-) embryos, implicating the TALE homeoprotein Pbx1 in splenic cell specification. Pbx1 and Hox11 genetically interact in spleen formation and loss of either is associated with a similar reduction of progenitor cell proliferation and failed expansion of the splenic anlage. Chromatin immunoprecipitation assays show that Pbx1 binds to the Hox11 promoter in spleen mesenchymal cells, which co-express Pbx1 and Hox11. Furthermore, Hox11 binds its own promoter in vivo and acts synergistically with TALE proteins to activate transcription, supporting its role in an auto-regulatory circuit. These studies establish a Pbx1-Hox11-dependent genetic and transcriptional pathway in spleen ontogeny. Additionally, we demonstrate that while Nkx3.2 and Pod1 control spleen development via separate pathways, Pbx1 genetically regulates key players in both pathways, and thus emerges as a central hierarchical co-regulator in spleen genesis. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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11. The TALE Homeodomain Protein Pbx2 IS Not Essential for Development and Long-Term Survival.
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Selleri, Licia, DiMartino, Jorge, van Deursen, Jan, Brendolan, Andrea, Sanyal, Mrinmoy, Boon, Elles, Capellini, Terence, Smith, Kevin S., Joon Rhee, Heike Pö, pperl, Grosveld, Gerard, and Cleary, Michael L.
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PROTEINS ,GENES ,TRANSCRIPTION factors ,IMMUNE system ,ENDOCRINE glands ,LYMPHOID tissue ,IMMUNOBLOTTING - Abstract
Pbx2 is one of four mammalian genes that encode closely related TALE homeodomain proteins, which serve as DNA binding partners for a subset of Hox transcription factors. The expression and contributions of Pbx2 to mammalian development remain undefined, in contrast to the essential roles recently established for family members Pbx1 and Pbx3. Here we report that Pbx2 is widely expressed during embryonic development, particularly in neural and epithelial tissues during late gestation. Despite wide Pbx2 expression, mice homozygous mutant for Pbx2 are born at the expected Mendelian frequencies and exhibit no detectable abnormalities in development and organogenesis or reduction of long-term survival. The lack of an apparent phenotype in Pbx2
-/- mice likely reflects functional redundancy, since the Pbx2 protein is present at considerably lower levels than comparable isoforms of Pbx1 and/or Pbx3 in embryonic tissues. In postnatal bone marrow and thymus, however, Pbx2 is the predominant high-molecular-weight (MW)-isoform Pbx protein detectable by immunoblotting. Nevertheless, the absence of Pbx2 has no measurable effect on steady-state hematopoiesis or immune function in adult mice, suggesting possible compensation by low-MW-isoform Pbx proteins present in these tissues. We conclude that the roles of Pbx2 in murine embryonic development, organogenesis, hematopoiesis, immune responses, and long-term survival are not essential. [ABSTRACT FROM AUTHOR]- Published
- 2004
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12. Gene-microarray analysis of multiple sclerosis lesions yields new targets validated in autoimmune encephalomyelitis.
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Lock, Christopher, Hermans, Guy, Pedotti, Rosetta, Brendolan, Andrea, Schadt, Eric, Garren, Hideki, Langer-Gould, Annette, Strober, Samuel, Cannella, Barbara, Allard, John, Klonowski, Paul, Austin, Angela, Lad, Nagin, Kaminski, Naftali, Galli, Stephen J., Oksenberg, Jorge R., Raine, Cedric S., Heller, Renu, and Steinman, Lawrence
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MICROCHEMISTRY ,MULTIPLE sclerosis ,AUTOIMMUNE diseases - Abstract
Microarray analysis of multiple sclerosis (MS) lesions obtained at autopsy revealed increased transcripts of genes encoding inflammatory cytokines, particularly interleukin-6 and -17, interferon-γ and associated downstream pathways. Comparison of two poles of MS pathology?acute lesions with inflammation versus 'silent' lesions without inflammation?revealed differentially transcribed genes. Some products of these genes were chosen as targets for therapy of experimental autoimmune encephalomyelitis (EAE) in mice. Granulocyte colony-stimulating factor is upregulated in acute, but not in chronic, MS lesions, and the effect on ameliorating EAE is more pronounced in the acute phase, in contrast to knocking out the immunoglobulin Fc receptor common γ chain where the effect is greatest on chronic disease. These results in EAE corroborate the microarray studies on MS lesions. Large-scale analysis of transcripts in MS lesions elucidates new aspects of pathology and opens possibilities for therapy. [ABSTRACT FROM AUTHOR]
- Published
- 2002
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13. Vascular endothelial growth factor enhances atherosclerotic plaque progression.
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Celletti, Francesca L., Waugh, Jacob M., Amabile, Philippe G., Brendolan, Andrea, Hilfiker, Paul R., and Dake, Michael D.
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VASCULAR endothelium ,GROWTH factors ,NEOVASCULARIZATION - Abstract
Vascular endothelial growth factor (VEGF) can promote angiogenesis but may also exert certain effects to alter the rate of atherosclerotic plaque development. To evaluate this potential impact on plaque progression, we treated cholesterol-fed mice doubly deficient in apolipoprotein E/apolipoprotein B100 with low doses of VEGF (2 μg/kg) or albumin. VEGF significantly increased macrophage levels in bone marrow and peripheral blood and increased plaque area 5-, 14- and 4-fold compared with controls at weeks 1, 2 and 3, respectively. Plaque macrophage and endothelial cell content also increased disproportionately over controls. In order to confirm that the VEGF-mediated plaque progression was not species-specific, the experiment was repeated in cholesterol-fed rabbits at the three-week timepoint, which showed comparable increases in plaque progression. [ABSTRACT FROM AUTHOR]
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- 2001
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14. Pbx1/Pbx2 requirement for distal limb patterning is mediated by the hierarchical control of Hox gene spatial distribution and Shh expression.
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Capellini, Terence D., Di Giacomo, Giuseppina, Salsi, Valentina, Brendolan, Andrea, Ferretti, Elisabetta, Srivastava, Deepak, Zappavigna, Vincenzo, and Selleri, Licia
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DEVELOPMENTAL biology ,EXTREMITIES (Anatomy) ,VERTEBRATES ,PROTEINS ,GENE expression ,GENETIC regulation - Abstract
Vertebrate limb development occurs along three cardinal axes--proximodistal, anteroposterior and dorsoventral--that are established via the organization of signaling centers, such as the zone of polarizing activity (ZPA). Distal limb development, in turn, requires a molecular feedback loop between the ZPA expression of sonic hedgehog (Shh) and the apical ectodermal ridge. The TALE homeoprotein Pbx1 has been shown to be essential for proximal limb development. In this study, we first uncover that Pbx1 and Pbx2 are co-expressed in the lateral plate and early limb field mesoderm. Later, Pbx2 is expressed throughout the limb, unlike Pbx1, which is expressed only in the proximal bud. By exploiting a Pbx1/Pbx2 loss-of-function mouse model, we demonstrate that, despite the lack of limb abnormalities in Pbx2-deficient (Pbx2-/-) embryos, compound Pbx1-/-; Pbx2+/- mutants, in addition to their exacerbated proximal limb defects, exhibit novel and severe distal abnormalities. Additionally, we reveal that Pbx1-/-; Pbx2-/ embryos lack limbs altogether. Furthermore, we establish that, unlike in flies, where the leg develops independently of Hox and where the Pbx ortholog Exd is required for specification of proximal (but not distal) limbs, in vertebrates, distal limb patterning is Pbx1/Pbx2 dependent. Indeed, we demonstrate that Pbx genetic requirement is mediated, at least in part, through their hierarchical control of Hox spatial distribution and Shh expression. Overall, we establish that, by controlling the spatial expression of Hox genes in the posterior limb and regulating ZPA function, Pbx1/Pbx2 exert a primary hierarchical function on Hox genes, rather than behaving merely as Hox ancillary factors. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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