Co-culture of bone marrow stem cells and macrophages indicates intermediate mechanism between local inflammation and innate immune system in diabetic periodontitis

Abstract Abstract 77 Adaptive immunity, especially T cells, has long been believed to be the dominant immune barrier in allogeneic transplantation. Targeting host T cells significantly reduces conditioning for bone marrow cell (BMC) engraftment. Innate immunity has been recently shown to pose a significant barrier in solid organ transplantation, but has not been addressed in bone marrow transplantation (BMT). Using T cell deficient (TCR-β/δ−/−) or T and B cell deficient (Rag−/−) mice, we found that allogeneic BMC rejection occurred early before the time required for T cell activation and was T- and B-cell independent, suggesting an effector role for innate immune cells in BMC rejection. Therefore, we hypothesized that by controlling both innate and adaptive immunity, the donor BMC would have a window of advantage to engraft. Survival of BMC in vivo was significantly improved by depleting recipient macrophages and/or NK cells, but not neutrophils. Moreover, depletion of macrophages and NK cells in combination with co-stimulatory blockade with anti-CD154 and rapamycin as a novel form of conditioning resulted in 100% allogeneic engraftment without any irradiation and T cell depletion. Donor chimerism remained stable and durable up to 6 months. Moreover, specific Vβ5½ and Vβ11 clonal deletion was detected in host CD4+ T cells in chimeras, indicating central tolerance to donor alloantigens. Whether and how the innate immune system recognizes or responds to allogeneic BMCs remains unknown. Toll-like receptors (TLRs) are a class of proteins that play a key role in the innate immune system. The signaling function of TLR depends on intracellular adaptors. The adaptor MyD88 transmits signals emanating from all TLR, except TLR3 while TRIF specifically mediates TLR3 and TLR4 signaling via type 1 IFN. To further determine the innate signaling pathways in allogeneic BMC rejection, B6 background (H2b) MyD88−/− and TRIF−/− mice were conditioned with anti-CD154/rapamycin plus 100 cGy total body irradiation and transplanted with 15 × 106 BALB/c (H2d) BMC. Only 33.3% of MyD88−/− recipients engrafted at 1 month, resembling outcomes for wild-type B6 mice. In contrast, 100% of TRIF−/− mice engrafted. The level of donor chimerism in TRIF−/− mice was 5.1 ± 0.6% at one month, significantly higher than in MyD88−/− and wild-type B6 controls (P < 0.005). To determine the mechanism of innate signaling in BMC rejection, we examined whether TRIF linked TLR3 or TLR4 is the key pattern recognition receptor involved in BMC recognition. To this end, TLR3−/− and TLR4−/− mice were transplanted with BALB/c BMC with same conditioning. None of the TLR3−/− mice engrafted. In contrast, engraftment was achieved in 100% of TLR4−/− mice up to 6 months follow up. Taken together, these results suggest that rejection of allogeneic BMC is uniquely dependent on the TLR4/TRIF signaling pathway. Thus, our results clearly demonstrate a previously unappreciated role for innate immunity in allogeneic BMC rejection. Our current findings are distinct from prior reports demonstrating a critical role of MyD88 in rejection of allogeneic skin grafts and lung, and may reflect unique features related to BMC. The findings of the role of innate immunity in BMC rejection would lead to revolutionary changes in our understanding and management of BMT. This would be informative in design of more specific innate immune targeted conditioning proposals in BMT to avoid the toxicity. Disclosures: Bozulic: Regenerex LLC: Employment. Ildstad:Regenerex LLC: Equity Ownership.

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Manipulation of immune system via immortal bone marrow stem cells

International Immunology ◽

10.1093/intimm/dxn079 ◽

2008 ◽

Vol 20 (9) ◽

pp. 1211-1218 ◽

Cited By ~ 24

Author(s):

C. Ruedl ◽

H. J. Khameneh ◽

K. Karjalainen

Keyword(s):

Stem Cells ◽

Bone Marrow ◽

Immune System ◽

Bone Marrow Stem Cells

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Irradiation Does Not Compromise or Exacerbate the Innate Immune Response in the Brains of Mice That Were Transplanted with Bone Marrow Stem Cells

Stem Cells ◽

10.1634/stemcells.2007-0508 ◽

2007 ◽

Vol 25 (12) ◽

pp. 3165-3172 ◽

Cited By ~ 18

Author(s):

Nicolas P. Turrin ◽

Marie-Michèle Plante ◽

Martine Lessard ◽

Serge Rivest

Keyword(s):

Stem Cells ◽

Bone Marrow ◽

Immune Response ◽

Innate Immune Response ◽

Bone Marrow Stem Cells ◽

Innate Immune

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Interferon Gamma, a Link between Hemophagocytic Lymphohistiocytosis and Dengue Fever Virus: A Literature Review of a Shared Inflammatory Pathway Resulting in Cytopenias and Potential Future Treatment Directions

Blood ◽

10.1182/blood-2019-126124 ◽

2019 ◽

Vol 134 (Supplement_1) ◽

pp. 4869-4869 ◽

Cited By ~ 1

Author(s):

Darla K Liles ◽

Heather Brody ◽

Juan Alvarez Posada ◽

Karim Hebishi ◽

John Thiele

Keyword(s):

Clinical Trial ◽

Bone Marrow ◽

Immune System ◽

Natural Killer ◽

Dengue Fever ◽

Sickle Cell ◽

Innate Immune System ◽

Lymphoproliferative Disorder ◽

Innate Immune ◽

Travel History

Our patient was an elderly female, previously healthy, who presented with fever, anemia, thrombocytopenia, and enlarged spleen. Her complaints were progressive over the course of two months. She was treated with antibiotics with no improvement. Underlying lymphoproliferative disorder was suspected, and a bone marrow biopsy and aspiration was completed. While there was no evidence for lymphoproliferative disorder, there was hemophagocytosis. Further evaluation revealed ferritin 1,151 ng/mL, soluble IL2 receptor 32,186 u/mL, and natural killer activity was low. She was diagnosed with secondary hemophagocytic lymphohistiocytosis (HLH). During her evaluation, her condition acutely worsened; she became encephalopathic with hypotension requiring vasopressor support and respiratory failure. The patient was given etoposide with rapid improvement in overall clinical status though further cytopenias secondary to etoposide prevented further treatment. She was ultimately diagnosed with Dengue Fever Virus by IgM Antibody, 4.54, with positive result >/= 2.84. A positive result is highly suggestive of acute disease, though cross reactivity is possible with other flavi viruses. The result was confirmed. The patient lived in a rural community in Eastern NC and had no travel history; the diagnosis was reported to the North Carolina public health department and the Center for Disease Control. Despite recognition and treatment of the HLH and Dengue fever, the patient died of complications. Both Dengue Fever and HLH cause significant morbidity and mortality. Their disease courses, while unique, do have some interesting parallels. They both can be associated with significant suppression of bone marrow function, frequently being associated with cytopenias. This is a major source of morbidity in both disease states. While Dengue Fever is a known, though rare, cause of HLH, it has not previously been reported in the continental United States. In this case report, we examine the known cytokine pathway activations in each disease state and their commonalities, focusing on bone marrow suppressive cytokines and subsequently suggesting mechanisms for targeted treatment of HLH. Even with our best treatments, in HLH, the associated mortality among all causes is around 42%. The mortality for untreated severe dengue is as high as 20% though with appropriate care, that is much improved at 1-2%. In HLH and Dengue, IL-1B, IFN-Ƴ, IL6, and TNF-α are increased. A common cytokine, IFN-Ƴ, directly affects bone marrow activity and can alter hematopoiesis. IFN-Ƴ is directly implicated in several bone marrow failure syndromes making it an attractive target to modulate. Based on results of an in vitro study of CD34+ hematopoietic stem cells (HSC) in the presence and absence of IFN-Ƴ in differing concentrations, IFN-Ƴ inhibited the ability of HSC to repopulate themselves though it did not affect their ability to differentiate. This was also shown in vivo in a mouse HSC transplant model with mirroring results. In our patient, it follows logical and chronological progression that her cytopenias worsened over time as her pool of CD34+ HSC was depleted. Additional studies of IFN-Ƴ and hematopoiesis suggest that IFN-Ƴ directly negatively affects the supportive bone marrow mesenchymal stoma cells which provide the cytokine environment that supports HSC repopulation. IFN-Ƴ is produced from the innate immune system via dendritic cells, natural killer (NK), and natural killer T (NKT) cell and in the adaptive immune system via Th1 T lymphocytes. IFN-Ƴ is a major activator of macrophages which in turn are responsible for secreting multiple other pro-inflammatory cytokines as previously mentioned. In Dengue, the innate immune system is activated via macrophage and dendritic cells. In HLH, IFN-Ƴ is primarily produced by T-cells. IFN-Ƴ is known to stimulate the janus kinase-STAT (JAK-STAT) signaling pathway in macrophages to increase inflammation. We suggest that modulation of the cytokines directly involved in the inflammatory syndrome might be considered. In summary, we report a case of Dengue fever with associated secondary HLH. This is the first report of Dengue fever in the continental United States in a person without travel history. In addition, this case report highlights the commonalities of the immune activation seen in both Dengue fever as well as secondary HLH and may indicate the potential for more targeted immunomodulation. Disclosures Liles: Imara: Other: PI on Clinical trial- Sickle cell ; Novartis: Other: PI on clinical trial Sickle cell ; Shire: Other: PI on clinical trial Sickle cell .

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Innate Immunity Is Responsible for Early Allorejection of Donor Bone Marrow Cells.

Blood ◽

10.1182/blood.v114.22.3523.3523 ◽

2009 ◽

Vol 114 (22) ◽

pp. 3523-3523

Author(s):

Hong Xu ◽

Jun Yan ◽

Ziqiang Zhu ◽

Lala-Rukh Hussain ◽

Yiming Huang ◽

...

Keyword(s):

Bone Marrow ◽

Innate Immunity ◽

Immune System ◽

T Cell ◽

Innate Immune System ◽

Immune Cell ◽

Marrow Cell ◽

Donor Cell ◽

Innate Immune ◽

Kinetics Of

Abstract Abstract 3523 Poster Board III-460 Adaptive immunity, especially T cells, has long been believed to be the dominant immune response in allogeneic transplantation. However, innate immunity has been recently shown to pose a significant barrier to the induction of tolerance to solid organ transplants. The role of the innate immune system in bone marrow cell alloreactivity has not been addressed. The innate immune system provides the first line of defense in the removal of pathogens because of the delay in generation of adaptive immune responses. Our present findings show that innate immunity is a significant first line barrier in bone marrow cell (BMC) rejection. To determine the effect of innate immune cell populations on rejection of donor BMCs, T cell deficient mice (TCR β/δ−/−) were used as BMC recipients in in vivo cytotoxicity assays (Figure A). TCRβ/δ−/− mice have normal innate immune cell populations but do not initiate adaptive cell-mediated cytotoxic or humoral responses. 20 × 106 CFSE labeled donor (high CFSE fluorescence intensity) and recipient control splenocytes (low CFSE fluorescence intensity) were injected into TCRβ/δ−/− and wildtype control B6 recipient mice. Donor cell survival was compared over time. Donor BALB/c splenocytes were eliminated in wildtype B6, with rejection complete by day 3. The kinetics of elimination of donor cells in TCRβ/δ−/− mice was similar to that for wildtype B6 controls, with donor cells eliminated by day 3. These results indicate that early rejection of the splenocytes in wildtype mice was T cell-independent. The acute rejection of BMC in wildtype B6 recipients occurred within 3 days, which is prior to the time required for T cell activation. Thus the effectors mediating BMC rejection would be the innate immune cells: macrophages, neutrophils, or NK cells. To rule out potential involvement of natural Abs in the cytotoxicity we observed in the TCRβ/δ−/− mice, Rag−/− mice were used as recipients (Figure B). Rag−/− mice do not produce mature T cells or B cells. 20 × 106 CFSE labeled donor (high CFSE intensity) and recipient control BM cells (low CFSE intensity) were injected into Rag−/−mice. Rag−/− and wildtype B6 control mice exhibited similar kinetics of donor cell cytolysis. The rapid elimination of allogeneic cells from immunocompetent mice is comparable with that observed in T cell- (TCRβ/δ−/−) or T and B cell- (Rag−/−) deficient mice indicates that allogeneic cells are subject to T cell-independent rejection at the early time period after cell infusion (≤ 3 days). As the kinetics of cytotoxicity were similar in experiments using either splenocytes or BMCs as target cells in our later experiments, our data suggest that the innate immune system is responsible for early allorejection of donor BMC at the early inductive period for adaptive immunity. These findings may have significant impact on the development of immune-based nonmyeloablative conditioning strategies and show for the first time that a dominant factor in BMC rejection is contributed by innate immune responses. Disclosures: Bozulic: Regenerex: Employment. Ildstad:Regenerex: Equity Ownership.

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CD47-Sirpα Interaction Modulates Homing and Engraftment of Human Acute Myeloid Leukemia Stem Cells in Mice.

Blood ◽

10.1182/blood.v114.22.476.476 ◽

2009 ◽

Vol 114 (22) ◽

pp. 476-476

Author(s):

Alexandre PA Theocharides ◽

Liqing Jin ◽

Armando G Poeppl ◽

Tatiana K Prasolava ◽

Olga I Gan ◽

...

Keyword(s):

Stem Cells ◽

Acute Myeloid Leukemia ◽

Immune System ◽

Nk Cells ◽

Innate Immune System ◽

Myeloid Leukemia ◽

Research Funding ◽

Innate Immune ◽

Hematopoietic Stem ◽

Acute Myeloid

Abstract Abstract 476 Introduction: A large body of work has shown that acute myeloid leukemia (AML) clones are hierarchically organized and maintained by leukemia initiating cells (AML-LSC). However, little is known about molecular regulators that govern AML-LSC fate. Using the non-obese diabetic (NOD)–severe combined immunodeficiency (SCID) xenotransplantation model, our group recently found that CD47-SIRPα protein interaction is essential for repopulation of normal hematopoietic stem cells (HSC) in mice (Takenaka et al, Nat Immunol 2007). The NOD background conferred the best support for human engraftment, whereas mice with other polymorphisms of Sirpa could not be engrafted (i.e. NOD.NOR-Idd13.SCID). CD47 on human AML contributes to pathogenesis by inhibiting phagocytosis of leukemia cells through CD47-SIRPα interaction (Jaiswal et al, Cell 2009). CD47 is increased on human AML LSCs compared to normal HSCs, and high levels of CD47 are associated with poor patient outcome (Majeti et al, Cell 2009). This indicates that CD47 may function as an important molecular regulator of AML-LSC fate through communication with SIRPα protein expressed on cells of the innate immune system. Results: Consistent with published results, we observed increased CD47 expression in primary AML cells compared to normal cord blood cells. We next investigated the functional relevance of CD47 for AML-LSCs by xenografting primary human AMLs into NOD.SCID and NOD.NOR-Idd13.SCID (Idd) mice. Following intravenous (i.v.) transplantation, none of three primary human AML samples could engraft Idd mice while robust engraftment in NOD.SCID mice was observed, consistent with our previous data using normal human HSCs. When the same samples were transplanted intrafemorally (i.f.), 2 of 6 Idd mice showed engraftment in the injected femur but no engraftment in other bones or the spleen; evidence of the latter is linked to stem cell function. To assess the role of innate immunity, we pre-treated mice with antibody against murine CD122 which depletes host natural killer (NK) cells and macrophages. Engraftment in the injected femur was observed in NOD.SCID mice (43/43) for all 10 AML samples tested, and interestingly in 31 of 42 Idd mice (8/10 AML samples tested), with similar engraftment levels (Idd 37.4±6% vs NOD.SCID 53.8±5%, p=0.33). As expected, NOD.SCID mice supported migration to non-injected bones (38/43 mice, 10/10 AML samples tested). In contrast to results obtained in the absence of anti-CD122 pre-treatment, engraftment in non-injected bones was now detectable in 8 of 42 Idd mice (2/10 AML samples tested), pointing to improved migration of AML-LSCs following depletion of NK cells and macrophages. However, the engraftment level in non-injected bones was significantly lower in Idd compared to NOD.SCID mice (2.4±4% vs 63.2±6%, p=0.001). Moreover, AML-LSCs were unable to repopulate the spleens of Idd mice. Homing assays revealed decreased homing to BM and spleen 16 hours following i.v. injection in Idd compared to NOD.SCID mice. Conclusion: Our results support the hypothesis that CD47-SIRPα interaction is critical for engraftment of AML-LSCs. Attenuation of CD47-SIRPα interaction (as in Idd mice) leads to decreased engraftment ability of AML-LSCs. Enhancement of engraftment in the injected femur and in some cases migration to other bones in Idd mice following anti-CD122 treatment is likely mediated through interference with cells of the innate immune system. Interruption of CD47-SIRPα signaling through targeting of either CD47 or SIRPα provides a potential therapeutic approach for eradication of AML-LSCs. Disclosures: Dick: Roche: Research Funding; CSL Ltd: Research Funding.

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