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Lv H, Wang T, Zhai S, Hou Z, Chen S. Dynamic transcriptome changes during osteogenic differentiation of bone marrow-derived mesenchymal stem cells isolated from chicken. Front Cell Dev Biol 2022; 10:940248. [PMID: 36120570 PMCID: PMC9478182 DOI: 10.3389/fcell.2022.940248] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/10/2022] [Accepted: 08/12/2022] [Indexed: 11/24/2022] Open
Abstract
Osteoblasts are indispensable for skeletal growth and maintenance. Bone marrow-derived mesenchymal stem cells (BMSCs) are useful in studying osteogenesis. In this study, BMSCs isolated from White Leghorns were differentiated into osteoblasts in vitro. Cells induced for -1, 0, 1, 11, and 22 d were used for transcriptomic analyses using the HISAT2-Stringtie-DESeq2 pipeline. Weighted correlation network analysis was processed to investigate significant modules, including differentially expressed genes (DEGs), correlated with osteogenic differentiation. Gene ontology and pathway enrichment analyses of DEGs were performed to elucidate the mechanisms of osteoblast differentiation. A total of 534, 1,144, 1,077, and 337 DEGs were identified between cells induced for -1 and 0, 0 and 1, 1 and 11, and 11 and 22 d, respectively (|log2FC| > 1.0, FDR <0.05). DEGs were mainly enriched in pathways related to cell proliferation in the early stage of osteogenic differentiation and pathways, such as the TGF-β signaling pathway, in the middle and late stages of osteogenic differentiation. A protein–protein interaction network of the 87 DEGs in the MEturquoise module within top 5-%-degree value was built utilizing the STRING database. This study is the first to elucidate the transcriptomic changes in the osteogenic differentiation of BMSCs isolated from White Leghorns at different times. Our results provide insight into the dynamic transcriptome changes during BMSC differentiation into osteoblasts in chicken.
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Song YT, Li YQ, Tian MX, Hu JG, Zhang XR, Liu PC, Zhang XZ, Zhang QY, Zhou L, Zhao LM, Li-Ling J, Xie HQ. Application of antibody-conjugated small intestine submucosa to capture urine-derived stem cells for bladder repair in a rabbit model. Bioact Mater 2022; 14:443-455. [PMID: 35415280 PMCID: PMC8978277 DOI: 10.1016/j.bioactmat.2021.11.017] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/29/2021] [Revised: 10/26/2021] [Accepted: 11/12/2021] [Indexed: 02/08/2023] Open
Abstract
The need for bladder reconstruction and side effects of cystoplasty have spawned the demand for the development of alternative material substitutes. Biomaterials such as submucosa of small intestine (SIS) have been widely used as patches for bladder repair, but the outcomes are not fully satisfactory. To capture stem cells in situ has been considered as a promising strategy to speed up the process of re-cellularization and functionalization. In this study, we have developed an anti-CD29 antibody-conjugated SIS scaffold (AC-SIS) which is capable of specifically capturing urine-derived stem cells (USCs) in situ for tissue repair and regeneration. The scaffold has exhibited effective capture capacity and sound biocompatibility. In vivo experiment proved that the AC-SIS scaffold could promote rapid endothelium healing and smooth muscle regeneration. The endogenous stem cell capturing scaffolds has thereby provided a new revenue for developing effective and safer bladder patches. We developed an anti-CD29 antibody-crosslinked submucosa of small intestine scaffold (AC-SIS). AC-SIS is capable of specifically capturing urine-derived stem cells (USCs) as well as possesses a sound biocompatibility. AC-SIS promotes in situ tissue regeneration by facilitating the repair of bladder epithelium, smooth muscle and angiogenesis. Design and application of endogenous stem cell capturing scaffolds provides a new strategy for bladder repair.
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Affiliation(s)
- Yu-Ting Song
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Yan-Qing Li
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Mao-Xuan Tian
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China.,Department of Aesthetic Surgery, The People's Hospital of Pengzhou, Chengdu, Sichuan, 611930, China
| | - Jun-Gen Hu
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Xiu-Ru Zhang
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China.,Surgery of Spine and Spinal Cord, Henan Provincial People's Hospital, Zhengzhou, Henan, 450000, China
| | - Peng-Cheng Liu
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China.,Department of Burn and Plastic Surgery, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Xiu-Zhen Zhang
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Qing-Yi Zhang
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Li Zhou
- Research Core Facility of West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Long-Mei Zhao
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Jesse Li-Ling
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China.,Department of Medical Genetics and Prenatal Diagnosis, West China Second Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
| | - Hui-Qi Xie
- Laboratory of Stem Cell and Tissue Engineering, Orthopedic Research Institute, Med-X Center for Materials, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, China
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3
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Wu K, Guo C, Yang B, Wu X, Wang W. Antihepatotoxic benefits of Poria cocos polysaccharides on acetaminophen-lesioned livers in vivo and in vitro. J Cell Biochem 2018; 120:7482-7488. [PMID: 30378160 DOI: 10.1002/jcb.28022] [Citation(s) in RCA: 34] [Impact Index Per Article: 5.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/20/2018] [Accepted: 10/15/2018] [Indexed: 12/20/2022]
Abstract
In our previous study, preliminary data indicates that Poria cocos polysaccharides (PCP) shows beneficial hepatoprotection against acetaminophen (APAP)-induced liver injury in mice. However, biological molecular mechanism warrants to be further discussed. In current study, a number of biochemical tests and immunoassays were subjected to respective PCP-dosed mice in vivo and liver cells in vitro. As a result, PCP-treated mice showed reduced contents of inflammatory cytokines (tumor necrosis factor [TNF]-β and TNFsR-I), enzymological molecules (alanine aminotransferase, aspartate aminotransferase, and lactate dehydrogenase [LDL]), and heat shock protein 90 (Hsp90) after APAP exposure. Additionally, immunostaining assays exhibited that lowered-positive cells of cleaved-caspase-3, cleaved-poly ADP ribose polymerase, and Hsp90-labeled cells in PCP-treated livers were observed, and increased cluster of differentiation 29 (CD29), CD73-positive cells in the spleen were detected. Further, PCP-treated mouse liver cells resulted in increased cell growth, reduced LDL level. Increased proliferating cell nuclear antigen (PCNA), P38 mitogen-activated protein kinase (MAPK)-labeled cells and decreased Hsp90-positive cells in APAP-exposed liver cells were observed dose-dependently after PCP cotreatments. Collectively, our present experimental findings elucidate that PCP beneficially play hepatoprotective effects against APAP-lesioned liver cells in vivo and in vitro, potentially through the molecular mechanisms of suppressing cell death, reducing hepatocellular inflammatory stress and Hsp90 bioactivity.
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Affiliation(s)
- Ka Wu
- Department of Pharmacy, The Second People's Hospital of Nanning City, The Third Affiliated Hospital of Guangxi Medical University, Nanning, China
| | - Chao Guo
- Department of Pharmacy, Guigang City People's Hospital, The Eighth Affiliated of Guangxi Medical University, Guigang, China
| | - Bin Yang
- Department of Pharmacy, Guangxi Medical University, Guilin, China
| | - Xinmou Wu
- Department of Pharmacy, Guangxi Medical University, Guilin, China
| | - Weimin Wang
- Department of Endocrinology, The Second People's Hospital of Nanning City, The Third Affiliated Hospital of Guangxi Medical University, Nanning, China
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Yubero N, Jiménez-Marín A, Barbancho M, Garrido JJ. Two cDNAs coding for the porcine CD51 (αv) integrin subunit: cloning, expression analysis, adhesion assays and chromosomal localization. Gene 2011; 481:29-40. [PMID: 21549183 DOI: 10.1016/j.gene.2011.04.006] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/10/2011] [Revised: 04/11/2011] [Accepted: 04/15/2011] [Indexed: 02/06/2023]
Abstract
CD51 (α(v)) is an integrin chain that associates with multiple β integrin chains to form different receptor complexes that mediate important human processes. Pigs show substantial physiological, immunological and anatomical similarities to humans, and are therefore a good model system to study immunological and pathological processes. Here we report the cloning and characterization of two cDNAs produced by alternative splicing that encode two different porcine CD51 proteins that differ in five amino acid residues. Pig CD51 cDNAs encode polypeptides of 1046 or 1041 amino acid residues, respectively, that share with other mammalian homologous proteins a high percentage amino acid identity and the functional domains. Expression analysis of CD51 was carried out at two different levels. RT-PCR analysis revealed that both CD51 transcripts were expressed ubiquitously but heterogeneously, with the exception of some platelets in which only the smallest CD51 transcript was detected. A specific monoclonal antibody against a pig CD51 recombinant protein was made and used in the immunohistochemical localization of CD51 proteins. It showed that CD51 was mainly expressed in hematopoietic cells of myeloid linage, epithelial and endothelial cells, osteoclasts, nervous fibers and smooth muscle. Adhesion assays showed that in the presence of Mn(++) pig α(v)-CHO-B2 transfected cells increased their attachment to fibronectin and vitonectin, but not to fibrinogen. Finally, we localized the CD51 gene on the porcine chromosome 15 (SSC15), q23-q26.
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Affiliation(s)
- Noemí Yubero
- Unidad de Genómica y Mejora Animal, Departamento de Genética, Universidad de Córdoba, Campus de Rabanales, 14071 Córdoba, Spain
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Siegel N, Valli A, Fuchs C, Rosner M, Hengstschläger M. Induction of mesenchymal/epithelial marker expression in human amniotic fluid stem cells. Reprod Biomed Online 2010; 19:838-46. [PMID: 20031026 DOI: 10.1016/j.rbmo.2009.09.015] [Citation(s) in RCA: 31] [Impact Index Per Article: 2.2] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/18/2022]
Abstract
Although dialysis and transplantation are widely applied therapies for renal failure, drawbacks such as morbidity, shortage of compatible organs and high cost are limiting factors. Recently, interest has increased in the potential use of stem cells for the repair of kidney injury, which has been considered as an alternative therapeutic strategy. Due to their high proliferation rates, their pluripotent differentiation potential, the finding that they do not induce tumour formation and the fact that they do not raise the ethical concerns connected with human embryonic stem cells, human amniotic fluid stem cells are considered to be a very promising cell source. This study demonstrates that the expression of the mesenchymal markers CD29 and CD44, the epithelial markers CD51 and ZO-1 and the podocyte markers CD2AP and NPHS2 can be induced in these cells via incubation with epidermal growth factor/platelet-derived growth factor BB and fibroblast growth factor 4/hepatocyte growth factor, respectively. Since podocytes are visceral epithelial cells in the kidneys, which form the essential part of the glomerular filtration barrier, these findings warrant further investigation of the potential use of human amniotic fluid stem cells for cell-based kidney therapies.
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Affiliation(s)
- Nicol Siegel
- Medical Genetics, Medical University of Vienna, Währinger Gürtel 18-20, 1090 Vienna, Austria
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Chen WQ, Siegel N, Li L, Pollak A, Hengstschläger M, Lubec G. Variations of Protein Levels in Human Amniotic Fluid Stem Cells CD117/2 Over Passages 5−25. J Proteome Res 2009; 8:5285-95. [DOI: 10.1021/pr900630s] [Citation(s) in RCA: 27] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/12/2022]
Affiliation(s)
- Wei-Qiang Chen
- Department of Pediatrics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria, and Department of Medical Genetics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria
| | - Nicol Siegel
- Department of Pediatrics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria, and Department of Medical Genetics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria
| | - Lin Li
- Department of Pediatrics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria, and Department of Medical Genetics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria
| | - Arnold Pollak
- Department of Pediatrics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria, and Department of Medical Genetics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria
| | - Markus Hengstschläger
- Department of Pediatrics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria, and Department of Medical Genetics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria
| | - Gert Lubec
- Department of Pediatrics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria, and Department of Medical Genetics, Medical University of Vienna, Währinger Gürtel 18, 1090 Vienna, Austria
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Piriou-Guzylack L, Salmon H. Membrane markers of the immune cells in swine: an update. Vet Res 2008; 39:54. [PMID: 18638439 DOI: 10.1051/vetres:2008030] [Citation(s) in RCA: 115] [Impact Index Per Article: 7.2] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/06/2008] [Accepted: 07/16/2008] [Indexed: 01/08/2023] Open
Abstract
Besides their breeding value, swine are increasingly used as biomedical models. As reported in three international swine clusters of differentiation (CD) workshops and in the animal homologue section of the last workshop for the determination of human leukocyte differentiation antigens (HLDA 8), characterisation of leukocyte surface antigens by monoclonal antibodies and other molecular studies have determined the cell lineages and blood leukocyte subsets implicated in the immune response, including cell adhesion molecules involved in cell trafficking. This review focusses on the current state of knowledge of porcine leukocyte differentiation and major histocompatibility complex (SLA) molecules. Examples of porcine particularities such as the double-positive T lymphocytes with the phenotype CD(4+)CD8(low) and CD(4-)CD8(low) alphabeta T cell subsets and the persistence of SLA class II after T-lymphocyte activation are illustrated, as well as the shared characteristics of the Artiodactyla group, such as the high proportion of gammadelta TcR (T cell receptor) T cells in blood and other lymphoid tissues. Furthermore, discrepancies between swine and humans, such as CD16 expression on dendritic cells and CD11b (wCD11R1) tissue distribution are outlined. The rapidly growing information should facilitate manipulation of the swine immune system towards improving disease control, and open new avenues for biomedical research using the pig as a model.
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Molecular characterization and expression analysis of the gene coding for the porcine beta(3) integrin subunit (CD61). Gene 2007; 408:9-17. [PMID: 18006249 DOI: 10.1016/j.gene.2007.10.016] [Citation(s) in RCA: 10] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/11/2005] [Revised: 10/02/2007] [Accepted: 10/10/2007] [Indexed: 01/27/2023]
Abstract
Integrins are heterodimeric cell adhesion molecules with major roles in a variety of biological processes ranging from cell migration to tissue organization, immune and non-immune defense mechanisms and oncogenic transformation. Members of the beta(3) integrin subfamily are composed of a beta(3) subunit (CD61) non-covalently associated with two alpha subunits, alpha(IIb) (CD41) and alpha(v) (CD51), to constitute a group of transmembrane glycoproteins that participate in many physiologically important events. This investigation has focused on the molecular characterization of the cDNA encoding the porcine beta(3) integrin subunit. The deduced 762-amino acid sequence was 93, 92, 91, 89, 79 and 73% homologous to human, dog, rabbit, mouse, chicken and Xenopus laevis CD61 protein, respectively. Porcine CD61 molecule shares many structural features with human CD61, including a region containing a metal ion-dependent adhesion site (MIDAS) folding into an I domain-like structure. Through PCR-SSCP analysis and sequencing, six polymorphic positions were detected in the cDNA sequence of porcine CD61, and their frequencies were observed from a collection of 47 pigs. Expression analysis was done at two different levels: expression of the CD61 mRNA by RT-PCR and localization of the protein by immunohistochemistry. Our results show that CD61 transcripts were detected mainly in platelets and hematopoietic tissues. The immunohistochemical tissue localization of CD61 protein by a specific monoclonal antibody against CD61 recombinant protein showed that CD61 was expressed on vascular and non-vascular smooth muscle, epithelium and myeloid cells, being undetectable in cells of the lymphoid lineage. Furthermore, pulmonary intravascular macrophages (PIM), a subpopulation of macrophages which seem to play an important role in blood clearance, expressed much more CD61 when compared to pulmonary alveolar macrophages (PAM). The knowledge of the structure and distribution of the CD61 provides insight into the physiological function of the porcine beta(3) integrins and should be of importance in understanding the role of this integrin family in biological processes.
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Liu RH, Cheng SL, Ueng KC, Wu DJ, Chen ST, Sinchaikul S, Lee TH. Gene expression analysis in LLC-PK1 renal tubular cells by atrial natriuretic peptide (ANP): correlation of homologous human genes with renal response. J Biomed Sci 2007; 14:383-93. [PMID: 17334945 DOI: 10.1007/s11373-007-9152-8] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/07/2006] [Accepted: 01/12/2007] [Indexed: 10/23/2022] Open
Abstract
We used human DNA microarray to explore the differential gene expression profiling of atrial natriuretic peptide (ANP)-stimulated renal tubular epithelial kidney cells (LLC-PK1) in order to understand the biological effect of ANP on renal kidney cell's response. Gene expression profiling revealed 807 differentially expressed genes, consisting of 483 up-regulated and 324 down-regulated genes. The bioinformatics tool was used to gain a better understanding of differentially expressed genes in porcine genome homologous with human genome and to search the gene ontology and category classification, such as cellular component, molecular function and biological process. Four up-regulated genes of ATP1B1, H3F3A, ITGB1 and RHO that were typically validated by real-time quantitative PCR (RT-qPCR) analysis serve important roles in the alleviation of renal hypertrophy as well as other related effects. Therefore, the human array can be used for gene expression analysis in pig kidney cells and we believe that our findings of differentially expressed genes served as genetic markers and biological functions can lead to a better understanding of ANP action on the renal protective system and may be used for further therapeutic application.
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Affiliation(s)
- Rosa Huang Liu
- Department of Life Sciences, National Chung Hsing University, 250, Kuo-Kuang Road, Taichung, 40227, Taiwan
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Jiménez-Marín A, Moreno A, de la Mulas JM, Millán Y, Morera L, Barbancho M, Llanes D, Garrido JJ. Localization of porcine CD29 transcripts and protein in pig cells and tissues by RT-PCR and immunohistochemistry. Vet Immunol Immunopathol 2005; 104:281-8. [PMID: 15734549 DOI: 10.1016/j.vetimm.2004.12.009] [Citation(s) in RCA: 6] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/23/2004] [Revised: 10/13/2004] [Accepted: 12/02/2004] [Indexed: 11/24/2022]
Abstract
Integrins are heterodimeric cell adhesion proteins with major roles in a variety of biological processes ranging from cell migration to tissue organization, immune and non-immune defense mechanisms and oncogenic transformation. Members of the beta(1) integrin subfamily are composed of a beta(1) subunit (CD29) non-covalently associated with different alpha subunits to constitute a group of transmembrane glycoproteins that participate in many physiologically important events. Here, we have studied the CD29 expression in porcine tissues and cells at two different levels: expression of the CD29 mRNA by RT-PCR and localization of the protein by immunohistochemistry. CD29 transcripts were detected in a variety of tissues and cells: platelets, PBMC, granulocytes, alveolar macrophages, smooth muscle, intestine, lung, liver, spleen, lymph node, skin, testis, heart, kidney and bone marrow. Our results suggest that CD29 gene transcription occurs in all organs examined, although with different intensities. The precise localization of CD29 protein in paraffin-embedded tissues was detected by using a specific polyclonal antibody indicating that its expression is limited to smooth muscle, epithelium cells, endothelium of blood vessels and myeloid cells and is no detectable in cells of the lymphoid lineage. The distribution of the CD29 in normal tissues provide insight into the physiological function of the porcine beta(1) integrins and should be of importance in understanding the role of this integrin family in pathological processes.
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Affiliation(s)
- Angeles Jiménez-Marín
- Unidad Mixta CSIC-UCO Marcadores Genéticos Moleculares en Animales Domésticos, Departamento de Genética, Universidad de Córdoba, Campus de Rabanales, Edificio Gregor Mendel (C5), 14071 Córdoba, Spain
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Chamorro S, Revilla C, Alvarez B, Alonso F, Ezquerra A, Domínguez J. Phenotypic and functional heterogeneity of porcine blood monocytes and its relation with maturation. Immunology 2005; 114:63-71. [PMID: 15606796 PMCID: PMC1782062 DOI: 10.1111/j.1365-2567.2004.01994.x] [Citation(s) in RCA: 64] [Impact Index Per Article: 3.4] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/28/2022] Open
Abstract
Swine monocytes constitute a heterogeneous population of cells which can be divided into four subsets based on the expression of SWC3, CD14, CD163 and swine leucocyte antigen (SLA) DR markers. These subsets appear to represent different maturation stages in a pathway along which these cells up-regulate the expression of SLA DR and CD163 antigens and reduce that of CD14. Differences in the expression of adhesion and costimulatory molecules are also patent, with a progressive increase in the expression of CD11a, wCD11R1, CD29, CD49d, CD61, CD1a and CD80/86, and a concomitant decrease in that of wCD11R2. Besides, these subsets differ in their capacity for tumour necrosis factor-alpha (TNF-alpha) production in response to lipopolysaccharide + interferon-gamma. The CD163(+) CD14(-) SLA DR(+) subset produces higher amounts of TNF-alpha than the CD163(-) CD14(+) SLA DR(-) subset, whereas CD163(+) CD14(+) SLA DR(+) and CD163(-) CD14(+) SLA DR(+) subsets show intermediate values. CD163(+) monocytes also display a higher ability to present soluble antigens to T cells than CD163(-) monocytes.
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Affiliation(s)
- Sonia Chamorro
- Departamento de Biotecnología, Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA), Ctra de la Coruña, Km 7,5, 28040 Madrid, Spain
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Hernández J, Garfias Y, Reyes-Leyva J, Chávez R, Lascurain R, Vargas J, Zenteno E. Peanut and Amaranthus leucocarpus lectins discriminate between memory and naive/quiescent porcine lymphocytes. Vet Immunol Immunopathol 2002; 84:71-82. [PMID: 11825599 DOI: 10.1016/s0165-2427(01)00395-6] [Citation(s) in RCA: 2] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/18/2022]
Abstract
Lectins are relevant tools to isolate and characterize different cellular sub-populations. In this work, we used the lectins Arachis hypogaea (Peanut agglutinin, PNA) and Amaranthus leucocarpus (ALL), specific for Galss1, 3GalNAc, to characterize naive and memory lymphocytes from pigs, experimentally infected with the porcine rubulavirus (RvP). Our results showed that both lectins recognized preferentially lymphocytes with the CD4(+)CD8(+) phenotype (P<0.05). The phenotypic analysis of the cells recognized by these lectins indicated that PNA(+) lymphocytes showed higher rate of the CD29 antigen (PNA(+)CD29(high)) than ALL(+) (ALL(+)CD29(low)). The number of PNA(+)CD29(high) lymphocytes increased after 8 weeks of experimental infection with RvP, and most of the ALL(+)CD29(low) cells became CD29(middle). PNA(+) lymphocytes isolated from infected pigs proliferated after stimulation with the RvP, whereas ALL(+) cells did not. In vitro assays indicated that the ALL(+) cells from previously infected pigs diminished from 7.5 +/- 2 to 0.5 +/- 0.3% after RvP stimulation; whereas PNA(+) cells increased from 4 +/- 1 to 42 +/- 2%, whereas no modification in ALL(+) or PNA(+) cellular population was identified in lymphocytes from naive animals after RvP stimulation. Our results suggest that the cellular distribution/organization of the O-glycosydically linked glycans on lymphocytes may correlate with biological functions, and that PNA could be a tool to isolate specifically porcine memory T cell subsets, whereas ALL could be useful to isolate naive/quiescent T lymphocytes.
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Affiliation(s)
- Jesús Hernández
- Departamento de Bioquímica, Instituto Nacional de Enfermedades Respiratorias, 14080, Tlalpan, Mexico.
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