Expansion and CD2/CD3/CD28 stimulation enhance Th2 cytokine secretion of human invariant NKT cells with retained anti-tumor cytotoxicity.

BACKGROUND AIMS: Key obstacles in human iNKT cell translational research and immunotherapy include the lack of robust protocols for dependable expansion of human iNKT cells and the paucity of data on phenotypes in post-expanded cells. METHODS: We delineate expansion methods using interleukin (IL)-2, IL-7 and allogeneic feeder cells and anti-CD2/CD3/CD28 stimulation by which to dependably augment Th2 polarization and direct cytotoxicity of human peripheral blood CD3+Vα24+Vß11+ iNKT cells. RESULTS: Gene and protein expression profiling demonstrated augmented Th2 cytokine secretion (IL-4, IL-5, IL-13) in expanded iNKT cells stimulated with anti-CD2/CD3/CD28 antibodies. Cytotoxic effector molecules including granzyme B were increased in expanded iNKT cells after CD2/CD3/CD28 stimulation. Direct cytotoxicity assays using unstimulated expanded iNKT cell effectors revealed α-galactosyl ceramide (α-GalCer)-dependent killing of the T-ALL cell line Jurkat. Moreover, CD2/CD3/CD28 stimulation of expanded iNKT cells augmented their (α-GalCer-independent) killing of Jurkat cells. Co-culture of expanded iNKT cells with stimulated responder cells confirmed contact-dependent inhibition of activated CD4+ and CD8+ responder T cells. DISCUSSION: These data establish a robust protocol to expand and novel pathways to enhance Th2 cytokine secretion and direct cytotoxicity in human iNKT cells, findings with direct implications for autoimmunity, vaccine augmentation and anti-infective immunity, cancer immunotherapy and transplantation.

Bidirectional immune tolerance in nonmyeloablative MHC-mismatched BMT for murine ß-thalassemia.

Nonmyeloablative conditioning using total lymphoid irradiation (TLI) and rabbit antithymocyte serum (ATS) (the murine preclinical equivalent of antithymocyte globulin [ATG]) facilitates immune tolerance after bone marrow transplantation (BMT) across major histocompatibility complex (MHC) disparities and may be a useful strategy for nonmalignant disorders. We previously reported that donor effector T-cell function and graft-versus-host disease (GVHD) are regulated via recipient invariant natural killer T-cell (iNKT) interleukin-4-driven expansion of donor Foxp3+ naturally occurring regulatory T cells (Tregs). This occurs via recipient iNKT- and STAT6-dependent expansion of recipient myeloid dendritic cells (MDCs) that induce contact-dependent expansion of donor Treg through PD-1/PD ligand signaling. After TLI/ATS + BMT, Gr-1lowCD11c+ MDCs and Gr-1highCD11cneg myeloid-derived suppressor cells (MDSCs) were enriched in GVHD target organs. We now report that the recovery of both recipient MDSCs (P < .01) and MDCs (P < .01) is significantly increased when the alkylator cyclophosphamide (CTX) is added to TLI/ATS conditioning. In a BALB/c → B6 lethal GVHD model, adoptive transfer of MDSCs from TLI/ATS/CTX-conditioned recipients is associated with significantly improved GVHD colitis and survival (P < .001), conversion of MDSCs to PD ligand-expressing MDCs, and increased donor naturally occurring Treg recovery (P < .01) compared with control treatment. Using BALB/c donors and ß-thalassemic HW-80 recipients, we found significantly improved rates of engraftment and GVHD following TLI/ATS/CTX compared with TLI/ATS, lethal or sublethal total body irradiation/ATS/CTX, or CTX/ATS conditioning. These data provide preclinical support for trials of TLI/ATG/alkylator regimens for MHC-mismatched BMT for hemoglobinopathies. The data also delineate innate immune mechanisms by which TLI/ATS/CTX conditioning may augment transplantation tolerance.

Globule Leukocytes and Other Mast Cells in the Mouse Intestine.

Only 2 major mast cell (MC) subtypes are commonly recognized in the mouse: the large connective tissue mast cells (CTMCs) and the mucosal mast cells (MMCs). Interepithelial mucosal inflammatory cells, most commonly identified as globule leukocytes (GLs), represent a third MC subtype in mice, which we term interepithelial mucosal mast cells (ieMMCs). This term clearly distinguishes ieMMCs from lamina proprial MMCs (lpMMCs) while clearly communicating their common MC lineage. Both lpMMCs and ieMMCs are rare in normal mouse intestinal mucosa, but increased numbers of ieMMCs are seen as part of type 2 immune responses to intestinal helminth infections and in food allergies. Interestingly, we found that increased ieMMCs were consistently associated with decreased mucosal inflammation and damage, suggesting that they might have a role in controlling helminth-induced immunopathology. We also found that ieMMC hyperplasia can develop in the absence of helminth infections, for example, in Treg-deficient mice, Arf null mice, some nude mice, and certain graft-vs-host responses. Since tuft cell hyperplasia plays a critical role in type 2 immune responses to intestinal helminths, we looked for (but did not find) any direct relationship between ieMMC and tuft cell numbers in the intestinal mucosa. Much remains to be learned about the differing functions of ieMMCs and lpMMCs in the intestinal mucosa, but an essential step in deciphering their roles in mucosal immune responses will be to apply immunohistochemistry methods to consistently and accurately identify them in tissue sections.

Recipient myeloid-derived immunomodulatory cells induce PD-1 ligand-dependent donor CD4+Foxp3+ regulatory T cell proliferation and donor-recipient immune tolerance after murine nonmyeloablative bone marrow transplantation.

We showed previously that nonmyeloablative total lymphoid irradiation/rabbit anti-thymocyte serum (TLI/ATS) conditioning facilitates potent donor-recipient immune tolerance following bone marrow transplantation (BMT) across MHC barriers via recipient invariant NKT (iNKT) cell-derived IL-4-dependent expansion of donor Foxp3(+) naturally occurring regulatory T cells (nTregs). In this study, we report a more specific mechanism. Wild-type (WT) BALB/c (H-2(d)) hosts were administered TLI/ATS and BMT from WT or STAT6(-/-) C57BL/6 (H-2(b)) donors. Following STAT6(-/-) BMT, donor nTregs demonstrated no loss of proliferation in vivo, indicating that an IL-4-responsive population in the recipient, rather than the donor, drives donor nTreg proliferation. In graft-versus-host disease (GVHD) target organs, three recipient CD11b(+) cell subsets (Gr-1(high)CD11c(-), Gr-1(int)CD11c(-), and Gr-1(low)CD11c(+)) were enriched early after TLI/ATS + BMT versus total body irradiation/ATS + BMT. Gr-1(low)CD11c(+) cells induced potent H-2K(b+)CD4(+)Foxp3(+) nTreg proliferation in vitro in 72-h MLRs. Gr-1(low)CD11c(+) cells were reduced significantly in STAT6(-/-) and iNKT cell-deficient Jα18(-/-) BALB/c recipients after TLI/ATS + BMT. Depletion of CD11b(+) cells resulted in severe acute GVHD, and adoptive transfer of WT Gr-1(low)CD11c(+) cells to Jα18(-/-) BALB/c recipients of TLI/ATS + BMT restored day-6 donor Foxp3(+) nTreg proliferation and protection from CD8 effector T cell-mediated GVHD. Blockade of programmed death ligand 1 and 2, but not CD40, TGF-ß signaling, arginase 1, or iNOS, inhibited nTreg proliferation in cocultures of recipient-derived Gr-1(low)CD11c(+) cells with donor nTregs. Through iNKT-dependent Th2 polarization, myeloid-derived immunomodulatory dendritic cells are expanded after nonmyeloablative TLI/ATS conditioning and allogeneic BMT, induce PD-1 ligand-dependent donor nTreg proliferation, and maintain potent graft-versus-host immune tolerance.

Phase I study of the safety and pharmacokinetics of plerixafor in children undergoing a second allogeneic hematopoietic stem cell transplantation for relapsed or refractory leukemia.

The safety, pharmacokinetics, and biological effect of plerixafor in children as part of a conditioning regimen for chemo-sensitization in allogeneic hematopoietic stem cell transplantation (HSCT) have not been studied. This is a phase I study of plerixafor designed to evaluate its tolerability at dose of .24 mg/kg given intravenously on day -4 (level 1); day -4 and day -3 (level 2); or day -4, day -3, and day -2 (level 3) in combination with fludarabine, thiotepa, melphalan, and rabbit antithymocytic globulin for a second allogeneic HSCT in children with refractory or relapsed leukemia. Immunophenotype analysis was performed on blood and bone marrow before and after plerixafor administration. Twelve patients were enrolled. Plerixafor at all 3 levels was well tolerated without dose-limiting toxicity. Transient gastrointestinal side effects of National Cancer Institute-grade 1 or 2 in severity were the most common adverse events. The area under the concentration-time curve increased proportionally to the dose level. Plerixafor clearance was higher in males and increased linearly with body weight and glomerular filtration rate. The clearance decreased and the elimination half-life increased significantly from dose level 1 to 3 (P < .001). Biologically, the proportion of CXCR4(+) blasts and lymphocytes both in the bone marrow and peripheral blood increased after plerixafor administration.

Detectable minimal residual disease before hematopoietic cell transplantation is prognostic but does not preclude cure for children with very-high-risk leukemia.

In patients with acute leukemia, detection of minimal residual disease (MRD) before allogeneic hematopoietic cell transplantation (HCT) correlates with risk of relapse. However, the level of MRD that is most likely to preclude cure by HCT is unclear, and the benefit of further chemotherapy to reduce MRD before HCT is unknown. In 122 children with very-high-risk acute lymphoblastic leukemia (ALL; n = 64) or acute myeloid leukemia (AML, n = 58), higher MRD levels at the time of HCT predicted a poorer survival after HCT (P = .0019); MRD was an independent prognostic factor in a multivariate analysis (P = .0035). However, the increase in risk of death associated with a similar increment of MRD was greater in ALL than in AML, suggesting that a pretransplantation reduction of leukemia burden would have a higher impact in ALL. At any given MRD level, survival rates were higher for patients treated in recent protocols: the 5-year overall survival for patients with ALL was 49% if MRD was detectable and 88% if it was not and the corresponding rates for patients with AML were 67% and 80%, respectively. Although MRD before HCT is a strong prognostic factor, its impact has diminished and should not be regarded as a contraindication for HCT.

The weaned pig as a model for Doxorubicin-induced mucositis.

BACKGROUND: Chemotherapy-induced mucositis (CIM) complicates cancer therapy and limits maximum tolerated doses and efficacy. Rodent models do not reproducibly mimic clinical CIM, so alternative models are needed. METHODS: CIM severity was assessed after weaned pigs were treated with doxorubicin (5 and 3.75 mg/kg) using clinical observations, laboratory parameters and gastrointestinal structure and functions. Bovine colostrum was provided as an experimental intervention to the pigs treated receiving the 3.75 mg/kg dose. RESULTS: Doxorubin at 3.75 mg/kg decreased food intake and weight gain (p < 0.05) and caused diarrhea and vomiting that coincided with damage to the small intestine mucosa based on histological scoring (p < 0.05). It resulted in higher serum TNF-α concentrations, increased chloride secretion and reduced brush border membrane disaccharidase activities and carrier-mediated glucose uptake (all p < 0.05). The gastrointestinal damage and dysfunction resemble the clinical and laboratory features of CIM in humans; these can be partially prevented by providing cow colostrum. CONCLUSION: The weaned pig is a relevant large animal for studying CIM and evaluating existing and experimental interventions for mucositis.

Promoting (and targeting) alternative expression.

Lineage-specific effects of upstream promoters affect ST2 expression and effector function in TH1cells.

A CHip off the old block.

Lineage-specific effects of upstream promoters affect ST2 expression and effector function in TH1 cells.

Successful allogeneic hematopoietic cell engraftment after a minimal conditioning regimen in children with relapsed or refractory solid tumors.

Children with relapsed or refractory solid tumors face dismal prognoses, and novel therapies are desperately needed. Allogeneic hematopoietic cell transplantation (HCT) offers potential for cell-based therapy, but the toxicity of myeloablation limits this approach in heavily pretreated patients. We sought to determine the feasibility of HCT in a cohort of 24 children with incurable solid tumors using human leukocyte antigen-matched sibling or unrelated donors and a minimal conditioning regimen. Before stem cell infusion, all patients received 3 daily doses of 30 mg/m(2) fludarabine followed by 2 Gy of total body irradiation. Hematopoietic cell recovery was rapid and reliable. Median time to neutrophil engraftment was 13.5 days for sibling donors and 12 days for unrelated donors. Donor lymphocyte infusions were used safely in 4 patients, all of whom had either improved chimerism or apparent tumor response. Graft-versus-host disease was comparable across donor sources and did not affect survival. Relapse remains a substantial barrier, although objective graft-versus-tumor effect was observed in several patients. Four patients with detectable disease before HCT achieved a complete response for at least 30 days after HCT, and two remain long-term survivors. Three patients were in complete response before HCT and remained in remission for 3, 6, and 74 months after HCT. Early disease response was associated with improved survival. Allogeneic HCT using this conditioning regimen offers a potential platform for novel immunotherapies.

High success rate of hematopoietic cell transplantation regardless of donor source in children with very high-risk leukemia.

We evaluated 190 children with very high-risk leukemia, who underwent allogeneic hematopoietic cell transplantation in 2 sequential treatment eras, to determine whether those treated with contemporary protocols had a high risk of relapse or toxic death, and whether non-HLA-identical transplantations yielded poor outcomes. For the recent cohorts, the 5-year overall survival rates were 65% for the 37 patients with acute lymphoblastic leukemia and 74% for the 46 with acute myeloid leukemia; these rates compared favorably with those of earlier cohorts (28%, n = 57; and 34%, n = 50, respectively). Improvement in the recent cohorts was observed regardless of donor type (sibling, 70% vs 24%; unrelated, 61% vs 37%; and haploidentical, 88% vs 19%), attributable to less infection (hazard ratio [HR] = 0.12; P = .005), regimen-related toxicity (HR = 0.25; P = .002), and leukemia-related death (HR = 0.40; P = .01). Survival probability was dependent on leukemia status (first remission vs more advanced disease; HR = 0.63; P = .03) or minimal residual disease (positive vs negative; HR = 2.10; P = .01) at the time of transplantation. We concluded that transplantation has improved over time and should be considered for all children with very high-risk leukemia, regardless of matched donor availability.

Macs-imizing sepsis protection.

CD169+ macrophage-intrinsic IL-10 production mitigates mortality from sepsis.

Everything everywhere all at once.

In successful melanoma immunotherapy, clonal TCRs can recognize multiple tumor-specific antigens simultaneously through cross-reactivity.

Effects of conditioning regimens and T cell depletion in hematopoietic cell transplantation for primary immune deficiency.

This study analyzes the hematopoietic cell transplantation experience in patients with immune deficiency at a single institution. The objective is to comprehensively evaluate the short-term and long-term outcomes with various preparative regimens, donor grafts, and ex vivo manipulations to identify transplantation approaches that most likely favor early donor immune competency without generating excessive toxicity. Clinical outcomes were evaluated in 52 consecutive patients with immune deficiencies. Thirty-seven of the 52 patients (71%) survived with attenuation of their underlying disease. The use of a melphalan-based reduced-intensity conditioning preparative regimen and immunomagnetic CD3(+) T cell depletion techniques (when T cell depletion was indicated) were associated with improved event-free survival. Survivors who received a preparative regimen other than a melphalan-based reduced-intensity regimen suffered from therapy-related morbidities or chronic/recurrent infections. Our findings indicate that melphalan-based reduced-intensity conditioning regimens and immunomagnetic CD3(+) T cell depletion limit therapy-related toxicity, and demonstrate promising results for the early establishment of donor immune competency.

Taking the STING out.

ABCC1 is an ATP-dependent cGAMP exporter responsible for negatively regulating STING signaling.

Immune gains through brain drains.

In a mouse model of pneumococcal meningitis, skull channels provide extravascular signaling to the skull marrow capable of initiating local marrow hematopoiesis.

Executive CoAching unleashes Tc22 anti-tumor capacity.

CoA-driven mitochondrial metabolism enhances the anti-tumor properties of IL-22­producing CD8+ T cells.

CyTOF® for the Masses.

Mass cytometry has revolutionized immunophenotyping, particularly in exploratory settings where simultaneous breadth and depth of characterization of immune populations is needed with limited samples such as in preclinical and clinical tumor immunotherapy. Mass cytometry is also a powerful tool for single-cell immunological assays, especially for complex and simultaneous characterization of diverse intratumoral immune subsets or immunotherapeutic cell populations. Through the elimination of spectral overlap seen in optical flow cytometry by replacement of fluorescent labels with metal isotopes, mass cytometry allows, on average, robust analysis of 60 individual parameters simultaneously. This is, however, associated with significantly increased complexity in the design, execution, and interpretation of mass cytometry experiments. To address the key pitfalls associated with the fragmentation, complexity, and analysis of data in mass cytometry for immunologists who are novices to these techniques, we have developed a comprehensive resource guide. Included in this review are experiment and panel design, antibody conjugations, sample staining, sample acquisition, and data pre-processing and analysis. Where feasible multiple resources for the same process are compared, allowing researchers experienced in flow cytometry but with minimal mass cytometry expertise to develop a data-driven and streamlined project workflow. It is our hope that this manuscript will prove a useful resource for both beginning and advanced users of mass cytometry.