scholarly journals Regulated progression of B lymphocyte differentiation from cultured fetal liver.

1987 ◽  
Vol 166 (2) ◽  
pp. 391-403 ◽  
Author(s):  
K A Denis ◽  
K Dorshkind ◽  
O N Witte
Keyword(s):  
B Lymphocytes ◽  
B Lymphocyte ◽  
Developmental Stages ◽  
Fetal Liver ◽  
Experimental System ◽  
Class Switch ◽  
B Lymphoid

Lymphoid fetal liver cultures (LFLC) are long-term, nontransformed cultures of early B lymphoid lineage cells which appear developmentally blocked at the pre-B stage in vitro. When injected into severe combined immunodeficient (SCID) mice, cells from LFLC could reconstitute splenic B lymphocytes and serum IgM. T lymphocyte reconstitution was not observed and serum IgG levels were very low. IgG3 was the predominant gamma subisotype in the serum of the LFLC-reconstituted mice, indicating impaired class switching in these B lymphocytes. When thymocytes were coinjected with LFLC, the B lymphocytes were able to class switch fully and respond to T-dependent antigens. These serological responses were heterogeneous. This experimental system allows separation of three B lymphocyte developmental stages: early differentiation in vitro, progression to IgM secretion in vivo, and late differentiation dependent upon mature T lymphocytes in vivo. The unique advantage of this system is the ability to regulate the B lymphocyte developmental pathway in a defined, stepwise manner.

Fetal liver pro-B and pre-B lymphocyte clones: expression of lymphoid-specific genes, surface markers, growth requirements, colonization of the bone marrow, and generation of B lymphocytes in vivo and in vitro

1992 ◽  
Vol 12 (2) ◽  
pp. 518-530
Author(s):  
R Palacios ◽  
J Samaridis
Keyword(s):  
B Cell ◽  
B Lymphocytes ◽  
Stromal Cells ◽  
B Lymphocyte ◽  
Germ Line ◽  
Fetal Liver ◽  
Rag 1 ◽  
B Cell Precursors

We describe here the development and characterization of the FLS4.1 stromal line derived from 15-day fetal liver of BALB/c embryos and defined culture conditions that efficiently support the cloning and long-term growth of nontransformed B-220+ 14-day fetal liver cells at two stages of B-cell development, namely, pro-B lymphocytes (immunoglobulin [Ig] genes in germ line configuration) and pre-B cells (JH-rearranged genes with both light-chain Ig genes in the germ line state). All B-cell precursor clones require recombinant interleukin-7 (rIL-7) and FLS4.1 stromal cells for continuous growth in culture, but pro-B lymphocyte clones can also proliferate in rIL-3. None proliferate in rIL-1, rIL-2, rIL-4, rIL-5, rIL-6, or leukemia inhibitory factor. FLS4.1 stromal cells synthesize mRNA for Steel factor but not for IL-1 to IL-7; all pro-B and pre-B clones express c-Kit, the receptor for Steel factor, and a c-Kit-specific antibody inhibits the enhanced proliferative response of fetal liver B-220+ B-cell precursors supported by FLS4.1 stromal cells and exogenous rIL-7 but does not affect that promoted by rIL-7 alone. Northern (RNA) blot analysis of the expression of the MB-1, lambda 5, Vpre-B, c mu, RAG-1, and RAG-2 genes in pro-B and pre-B clones show that transcription of the MB-1 gene precedes IgH gene rearrangement and RNA synthesis from c mu, RAG-1, RAG-2, lambda 5, and Vpre-B genes. All clones at the pre-B-cell stage synthesize mRNA for c mu, RAG-1, and RAG-2 genes; transcription of the lambda 5 and Vpre-B genes seems to start after D-to-JH rearrangement in B-cell precursors, indicating that the proteins encoded by either gene are not required for B-cell progenitors to undergo D-to-JH gene rearrangement. These findings mark transcription of the MB-1 gene as one of the earliest molecular events in commitment to develop along the B-lymphocyte pathway. Indeed, both pro-B and pre-B clones can generate in vitro and in vivo B lymphocytes but not T lymphocytes; moreover, these clones do not express the CD3-gamma T-cell-specific gene, nor do they have rearranged gamma, delta, or beta T-cell antigen receptor genes.

scholarly journals Fetal liver pro-B and pre-B lymphocyte clones: expression of lymphoid-specific genes, surface markers, growth requirements, colonization of the bone marrow, and generation of B lymphocytes in vivo and in vitro.

1992 ◽  
Vol 12 (2) ◽  
pp. 518-530 ◽  
Author(s):  
R Palacios ◽  
J Samaridis
Keyword(s):  
B Cell ◽  
B Lymphocytes ◽  
Stromal Cells ◽  
B Lymphocyte ◽  
Germ Line ◽  
Fetal Liver ◽  
Rag 1 ◽  
B Cell Precursors

We describe here the development and characterization of the FLS4.1 stromal line derived from 15-day fetal liver of BALB/c embryos and defined culture conditions that efficiently support the cloning and long-term growth of nontransformed B-220+ 14-day fetal liver cells at two stages of B-cell development, namely, pro-B lymphocytes (immunoglobulin [Ig] genes in germ line configuration) and pre-B cells (JH-rearranged genes with both light-chain Ig genes in the germ line state). All B-cell precursor clones require recombinant interleukin-7 (rIL-7) and FLS4.1 stromal cells for continuous growth in culture, but pro-B lymphocyte clones can also proliferate in rIL-3. None proliferate in rIL-1, rIL-2, rIL-4, rIL-5, rIL-6, or leukemia inhibitory factor. FLS4.1 stromal cells synthesize mRNA for Steel factor but not for IL-1 to IL-7; all pro-B and pre-B clones express c-Kit, the receptor for Steel factor, and a c-Kit-specific antibody inhibits the enhanced proliferative response of fetal liver B-220+ B-cell precursors supported by FLS4.1 stromal cells and exogenous rIL-7 but does not affect that promoted by rIL-7 alone. Northern (RNA) blot analysis of the expression of the MB-1, lambda 5, Vpre-B, c mu, RAG-1, and RAG-2 genes in pro-B and pre-B clones show that transcription of the MB-1 gene precedes IgH gene rearrangement and RNA synthesis from c mu, RAG-1, RAG-2, lambda 5, and Vpre-B genes. All clones at the pre-B-cell stage synthesize mRNA for c mu, RAG-1, and RAG-2 genes; transcription of the lambda 5 and Vpre-B genes seems to start after D-to-JH rearrangement in B-cell precursors, indicating that the proteins encoded by either gene are not required for B-cell progenitors to undergo D-to-JH gene rearrangement. These findings mark transcription of the MB-1 gene as one of the earliest molecular events in commitment to develop along the B-lymphocyte pathway. Indeed, both pro-B and pre-B clones can generate in vitro and in vivo B lymphocytes but not T lymphocytes; moreover, these clones do not express the CD3-gamma T-cell-specific gene, nor do they have rearranged gamma, delta, or beta T-cell antigen receptor genes.

scholarly journals Development of suppressor T lymphocytes for Epstein-Barr virus-induced B-lymphocyte outgrowth during acute infectious mononucleosis: assessment by two quantitative systems

Blood ◽  
1981 ◽  
Vol 57 (3) ◽  
pp. 510-517 ◽  
Author(s):  
RT Schooley ◽  
BF Haynes ◽  
J Grouse ◽  
C Payling-Wright ◽  
AS Fauci ◽  
...  
Keyword(s):  
T Lymphocytes ◽  
B Lymphocytes ◽  
Epstein Barr Virus ◽  
B Lymphocyte ◽  
Acute Stage ◽  
Cell Mediated Immunity ◽  
Barr Virus ◽  
Epstein Barr

Abstract A system of 3H-thymidine incorporation by lymphocytes in culture for 3 wk has been utilized for quantitative assessment of the ability of T lymphocytes to inhibit outgrowth of autologous Epstein-Barr virus (EBV) transformed B lymphocytes. Lymphocytes from EBV-seronegative individuals lack the ability to suppress outgrowth of autologous EBV- transformed B lymphocytes. This capability appears during the course of primary EBV-induced infectious mononucleases (IM) as the atypical lymphocytosis is subsiding and persists for years after recovery from primary EBV infection. The ability of T lymphocytes from EBV- seropositive subjects or convalescent IM patients to inhibit B- lymphocyte outgrowth is not HLA restricted. Thus, T lymphocytes capable of inhibition of in vitro EBV-induced B-cell outgrowth emerge during the acute stage of IM and may represent an important control mechanism of EBV-induced B-lymphocyte proliferation in vivo. The system provides a highly sensitive quantitative means for in vitro assessment of cell- mediated immunity to EBV.

Constitutive TGF-β1 Deficiency Induces a Defect in Hematopoietic Stem/Progenitor Cell Compartment in Fetus and Neonate.

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 1397-1397
Author(s):  
Claude Capron ◽  
Catherine Lacout ◽  
Yann Lecluse ◽  
Valérie Jalbert ◽  
Elisabeth Cramer Bordé ◽  
...  
Keyword(s):  
Fetal Liver ◽  
Hematopoietic Cells ◽  
Type I ◽  
Activated T Cells ◽  
Hematopoietic Stem ◽  
Tgf Β1

Abstract TGF-β1 is a cytokine with pleiotropic effects. It has been considered that TGF-β1plays a major role on hematopoietic stem cells (HSC) based on in vitro experiment. Achieving in vivo experiments proved to be difficult because constitutive TGF-β1 knock-out (KO) in mice leads to lethality during the first 4 weeks of life from a wasting syndrome related to tissue infiltration by activated T cells and macrophages. For this reason, hematopoiesis of TGF-β1−/− mice has not been studied in details. In contrast the role of TGF-β1 has been recently extensively studied in conditional TGF-β type I receptor (TβRI) KO mice. No clear effect was observed on HSC functions, suggesting that TGF-β1 was not a key physiological regulator of hematopoiesis in the adult. However, these experiments have some limitations. They do not exclude a putative role for TGF-β1 during fetal hematopoiesis and they do not specifically address the role of TGF-β1 on hematopoiesis because KO of TGF-β receptor leads to signaling arrest for all TGF-βs. In addition, other receptors may be involved in TGF-β1 signaling. For these reasons, we have investigated the hematopoiesis of constitutive TGF-β1 KO mice with a mixed Sv129 × CF-1 genetic background allowing the birth of a high proportion of homozygotes. In 2 week-old neonate mice, we have shown a decrease of bone marrow (BM) and spleen progenitors and a decrease of immature progenitors colony forming unit of the spleen (CFU-s). Moreover this was associated with a loss in reconstitutive activity of TGF-β1−/− HSC from BM. However, although asymptomatic, these mice had an excess of activated lymphocytes and an augmentation of Sca-1 antigen on hematopoietic cells suggesting an excess of γ-interferon release. Thus we studied hematopoiesis of 7 to 10 days-old neonate mice, before phenotypic modification and inflammatory cytokine release. Similar results were observed with a decrease in the number of progenitors and in the proliferation of TGF-β1−/− BM cells along with an increased differentiation but without an augmentation in apoptosis. Moreoever, a loss of long term reconstitutive capacity of BM Lineage negative (Lin−) TGF-β1−/− cells along with a diminution of homing of TGF-β1−/− progenitors was found. These results demonstrate that TGF-β1 may play a major role on the HSC/Progenitor compartment in vivo and that this defect does not seem to be linked to the immune disease. To completely overpass the risk of the inflammatory syndrome, we analyzed hematopoiesis of fetal liver (FL) of TGF-β1−/− mice and still found a decrease in progenitors, a profound defect in the proliferative capacities, in long term reconstitutive activity and homing potential of primitive FL hematopoietic cells. Our results demonstrate that TGF-β1 plays an important role during hematopoietic embryonic development. Altogether these findings suggest that TGF-β1 is a potent positive regulator for the in vivo homeostasis of the HSC compartment.

Hematopoietic stem cells express Tie-2 receptor in the murine fetal liver

Blood ◽  
2000 ◽  
Vol 96 (12) ◽  
pp. 3757-3762 ◽  
Author(s):  
Hsiang-Chun Hsu ◽  
Hideo Ema ◽  
Mitsujiro Osawa ◽  
Yukio Nakamura ◽  
Toshio Suda ◽  
...  
Keyword(s):  
Stem Cells ◽  
Hematopoietic Stem Cells ◽  
Receptor Tyrosine Kinase ◽  
Fetal Liver ◽  
Newborn Mice ◽  
Hematopoietic Stem ◽  
Fetal Liver Cells

Tie-2 receptor tyrosine kinase expressed in endothelial and hematopoietic cells is believed to play a role in both angiogenesis and hematopoiesis during development of the mouse embryo. This article addressed whether Tie-2 is expressed on fetal liver hematopoietic stem cells (HSCs) at day 14 of gestation. With the use of anti–Tie-2 monoclonal antibody, its expression was detected in approximately 7% of an HSC population of Kit-positive, Sca-1–positive, lineage-negative or -low, and AA4.1-positive (KSLA) cells. These Tie-2–positive KSLA (T+ KSLA) cells represent 0.01% to 0.02% of fetal liver cells. In vitro colony and in vivo competitive repopulation assays were performed for T+ KSLA cells and Tie-2–negative KSLA (T− KSLA) cells. In the presence of stem cell factor, interleukin-3, and erythropoietin, 80% of T+ KSLA cells formed colonies in vitro, compared with 40% of T− KSLA cells. Long-term multilineage repopulating cells were detected in T+ KSLA cells, but not in T− KSLA cells. An in vivo limiting dilution analysis revealed that at least 1 of 8 T+ KSLA cells were such repopulating cells. The successful secondary transplantation initiated with a limited number of T+ KSLA cells suggests that these cells have self-renewal potential. In addition, engraftment of T+ KSLA cells in conditioned newborn mice indicates that these HSCs can be adapted equally by the adult and newborn hematopoietic environments. The data suggest that T+ KSLA cells represent HSCs in the murine fetal liver.

Hematopoietic stem cells express Tie-2 receptor in the murine fetal liver

Blood ◽  
2000 ◽  
Vol 96 (12) ◽  
pp. 3757-3762 ◽  
Author(s):  
Hsiang-Chun Hsu ◽  
Hideo Ema ◽  
Mitsujiro Osawa ◽  
Yukio Nakamura ◽  
Toshio Suda ◽  
...  
Keyword(s):  
Stem Cells ◽  
Hematopoietic Stem Cells ◽  
Receptor Tyrosine Kinase ◽  
Fetal Liver ◽  
Newborn Mice ◽  
Hematopoietic Stem ◽  
Fetal Liver Cells

Abstract Tie-2 receptor tyrosine kinase expressed in endothelial and hematopoietic cells is believed to play a role in both angiogenesis and hematopoiesis during development of the mouse embryo. This article addressed whether Tie-2 is expressed on fetal liver hematopoietic stem cells (HSCs) at day 14 of gestation. With the use of anti–Tie-2 monoclonal antibody, its expression was detected in approximately 7% of an HSC population of Kit-positive, Sca-1–positive, lineage-negative or -low, and AA4.1-positive (KSLA) cells. These Tie-2–positive KSLA (T+ KSLA) cells represent 0.01% to 0.02% of fetal liver cells. In vitro colony and in vivo competitive repopulation assays were performed for T+ KSLA cells and Tie-2–negative KSLA (T− KSLA) cells. In the presence of stem cell factor, interleukin-3, and erythropoietin, 80% of T+ KSLA cells formed colonies in vitro, compared with 40% of T− KSLA cells. Long-term multilineage repopulating cells were detected in T+ KSLA cells, but not in T− KSLA cells. An in vivo limiting dilution analysis revealed that at least 1 of 8 T+ KSLA cells were such repopulating cells. The successful secondary transplantation initiated with a limited number of T+ KSLA cells suggests that these cells have self-renewal potential. In addition, engraftment of T+ KSLA cells in conditioned newborn mice indicates that these HSCs can be adapted equally by the adult and newborn hematopoietic environments. The data suggest that T+ KSLA cells represent HSCs in the murine fetal liver.

scholarly journals Preliminary evaluations of 3-dimensional human skin models for their ability to facilitate in vitro the long-term development of the debilitating obligatory human parasite Onchocerca volvulus

2020 ◽  
Vol 14 (11) ◽  
pp. e0008503
Author(s):  
Christoph Malkmus ◽  
Shabnam Jawahar ◽  
Nancy Tricoche ◽  
Sara Lustigman ◽  
Jan Hansmann
Keyword(s):  
Adipose Tissue ◽  
Developmental Stages ◽  
Onchocerca Volvulus ◽  
River Blindness ◽  
Mature Adult ◽  
3 Dimensional ◽  
Human Parasite

Onchocerciasis also known as river blindness is a neglected tropical disease and the world's second-leading infectious cause of blindness in humans; it is caused by Onchocerca volvulus. Current treatment with ivermectin targets microfilariae and transmission and does not kill the adult parasites, which reside within subcutaneous nodules. To support the development of macrofilaricidal drugs that target the adult worm to further support the elimination of onchocerciasis, an in-depth understanding of O. volvulus biology especially the factors that support the longevity of these worms in the human host (>10 years) is required. However, research is hampered by a lack of access to adult worms. O. volvulus is an obligatory human parasite and no small animal models that can propagate this parasite were successfully developed. The current optimized 2-dimensional (2-D) in vitro culturing method starting with O. volvulus infective larvae does not yet support the development of mature adult worms. To overcome these limitations, we have developed and applied 3-dimensional (3-D) culture systems with O. volvulus larvae that simulate the human in vivo niche using in vitro engineered skin and adipose tissue. Our proof of concept studies have shown that an optimized indirect co-culture of in vitro skin tissue supported a significant increase in growth of the fourth-stage larvae to the pre-adult stage with a median length of 816–831 μm as compared to 767 μm of 2-D cultured larvae. Notably, when larvae were co-cultured directly with adipose tissue models, a significant improvement for larval motility and thus fitness was observed; 95% compared to 26% in the 2-D system. These promising co-culture concepts are a first step to further optimize the culturing conditions and improve the long-term development of adult worms in vitro. Ultimately, it could provide the filarial research community with a valuable source of O. volvulus worms at various developmental stages, which may accelerate innovative unsolved biomedical inquiries into the parasite’s biology.

scholarly journals B lymphocytes undergo TLR2-dependent apoptosis upon Shigella infection

2014 ◽  
Vol 211 (6) ◽  
pp. 1215-1229 ◽  
Author(s):  
Katharina Nothelfer ◽  
Ellen T. Arena ◽  
Laurie Pinaud ◽  
Michel Neunlist ◽  
Brian Mozeleski ◽  
...  
Keyword(s):  
Cell Death ◽  
B Cell ◽  
B Lymphocytes ◽  
B Lymphocyte ◽  
Ex Vivo ◽  
Functionally Impaired ◽  
Rectal Biopsies ◽  
Type Three Secretion

Antibody-mediated immunity to Shigella, the causative agent of bacillary dysentery, requires several episodes of infection to get primed and is short-lasting, suggesting that the B cell response is functionally impaired. We show that upon ex vivo infection of human colonic tissue, invasive S. flexneri interacts with and occasionally invades B lymphocytes. The induction of a type three secretion apparatus (T3SA)–dependent B cell death is observed in the human CL-01 B cell line in vitro, as well as in mouse B lymphocytes in vivo. In addition to cell death occurring in Shigella-invaded CL-01 B lymphocytes, we provide evidence that the T3SA needle tip protein IpaD can induce cell death in noninvaded cells. IpaD binds to and induces B cell apoptosis via TLR2, a signaling receptor thus far considered to result in activation of B lymphocytes. The presence of bacterial co-signals is required to sensitize B cells to apoptosis and to up-regulate tlr2, thus enhancing IpaD binding. Apoptotic B lymphocytes in contact with Shigella-IpaD are detected in rectal biopsies of infected individuals. This study therefore adds direct B lymphocyte targeting to the diversity of mechanisms used by Shigella to dampen the host immune response.

TEL-AML1 promotes development of specific hematopoietic lineages consistent with preleukemic activity

Blood ◽  
2004 ◽  
Vol 103 (10) ◽  
pp. 3890-3896 ◽  
Author(s):  
Michelle Morrow ◽  
Sarah Horton ◽  
Dimitris Kioussis ◽  
Hugh J. M. Brady ◽  
Owen Williams
Keyword(s):  
B Cell ◽  
B Lymphocyte ◽  
Specific Activity ◽  
Fetal Liver ◽  
Cell Lineage ◽  
Retroviral Vectors ◽  
Fusion Product ◽  
Pediatric Leukemia

Abstract The t(12;21)(p13;q22) translocation is the most common chromosomal abnormality yet identified in any pediatric leukemia and gives rise to the TEL-AML1 fusion product. To investigate the effects of TEL-AML1 on hematopoiesis, fetal liver hematopoietic progenitor cells (HPCs) were transduced with retroviral vectors expressing this fusion protein. We show that TEL-AML1 dramatically alters differentiation of HPCs in vitro, preferentially promoting B-lymphocyte development, enhancing self-renewal of B-cell precursors, and leading to the establishment of long-term growth factor–dependent pre–B-cell lines. However, it had no effect on myeloid development in vitro. Further experiments were performed to determine whether TEL-AML1 also demonstrates lineage-specific activity in vivo. TEL-AML1–expressing HPCs displayed a competitive advantage in reconstituting both B-cell and myeloid lineages in vivo but had no effect on reconstitution of the T-cell lineage. Despite promoting these alterations in hematopoiesis, TEL-AML1 did not induce leukemia in transplanted mice. Our study provides a unique insight into the role of TEL-AML1 in leukemia predisposition and a potential model to study the mechanism of leukemogenesis associated with this fusion.

scholarly journals Plasma Cell Ontogeny Defined by Quantitative Changes in Blimp-1 Expression

2004 ◽  
Vol 200 (8) ◽  
pp. 967-977 ◽  
Author(s):  
Axel Kallies ◽  
Jhagvaral Hasbold ◽  
David M. Tarlinton ◽  
Wendy Dietrich ◽  
Lynn M. Corcoran ◽  
...  
Keyword(s):  
Plasma Cell ◽  
B Lymphocyte ◽  
Plasma Cells ◽  
Fluorescent Protein ◽  
Developmental Stages ◽  
Maturation Protein ◽  
Quantitative Changes ◽  
Green Fluorescent

Plasma cells comprise a population of terminally differentiated B cells that are dependent on the transcriptional regulator B lymphocyte–induced maturation protein 1 (Blimp-1) for their development. We have introduced a gfp reporter into the Blimp-1 locus and shown that heterozygous mice express the green fluorescent protein in all antibody-secreting cells (ASCs) in vivo and in vitro. In vitro, these cells display considerable heterogeneity in surface phenotype, immunoglobulin secretion rate, and Blimp-1 expression levels. Importantly, analysis of in vivo ASCs induced by immunization reveals a developmental pathway in which increasing levels of Blimp-1 expression define developmental stages of plasma cell differentiation that have many phenotypic and molecular correlates. Thus, maturation from transient plasmablast to long-lived ASCs in bone marrow is predicated on quantitative increases in Blimp-1 expression.

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