Abstract: Infectious agents have been identified in the etiology of certain non-Hodgkin lymphoma (NHL) subtypes and solid tumors. The impact of this shared etiology on risk for second cancers in NHL survivors has not been comprehensively studied. We used US population–based cancer registry data to quantify risk of solid malignancies associated with infectious etiology among 127 044 adult 1-year survivors of the 4 most common NHL subtypes diagnosed during 2000 to 2014 (mean follow-up, 4.5-5.2 years). Compared with the general population, elevated risks for liver, stomach, and anal cancers were observed among diffuse large B-cell lymphoma (DLBCL) survivors (standardized incidence ratio [SIR], 1.85; 95% confidence interval [CI] , 1.46-2.31; SIR, 1.51; 95% CI, 1.16-1.94; SIR, 3.71; 95% CI, 2.52-5.27, respectively) and marginal zone lymphoma (MZL; SIR, 1.98; 95% CI, 1.34-2.83; SIR, 2.78; 95% CI, 2.02-3.74; SIR, 2.36; 95% CI, 1.02-4.64, respectively) but not follicular lymphoma or chronic lymphocytic leukemia/small lymphocytic lymphoma. Anal cancer risk was particularly elevated among DLBCL survivors with HIV (SIR, 68.34; 95% CI, 37.36-114.66) vs those without (SIR, 2.09; 95% CI, 1.22-3.34). The observed patterns are consistent with shared associations between these cancers and hepatitis C virus, Helicobacter pylori, and HIV, respectively. In contrast, risks for cervical and oropharyngeal/tonsil cancers were not elevated among survivors of any NHL subtype, possibly because of the lack of NHL association with human papillomavirus or population-wide screening practices (for cervical cancer). In summary, patterns of elevated second cancer risk differed by NHL subtype. Our results suggest shared infectious etiology has implications for subsequent cancer risks among DLBCL and MZL survivors, which may help inform surveillance for these survivors.

Abstract: Background: Extended T-cell culture periods in vitro deplete the CAR-T final product of naive and stem cell memory T-cell (T scm) subpopulations that are associated with improved antitumor efficacy. YTB323 is an autologous CD19-directed CAR-T cell therapy with dramatically simplified manufacturing, which eliminates complexities such as long culture periods. This improved T-Charge™ process preserves T-cell stemness, an important characteristic closely tied to therapeutic potential, which leads to enhanced expansion ability and greater antitumor activity of CAR-T cells. Methods: The new T-Charge TM manufacturing platform, which reduces ex vivo culture time to about 24 hours and takes & lt;2 days to manufacture the final product, was evaluated in a preclinical setting. T cells were enriched from healthy donor leukapheresis, followed by activation and transduction with a lentiviral vector encoding for the same CAR used for tisagenlecleucel. After ≈24 hours of culture, cells were harvested, washed, and formulated (YTB323). In parallel, CAR-T cells (CTL*019) were generated using a traditional ex vivo expansion CAR-T manufacturing protocol (TM process) from the same healthy donor T cells and identical lentiviral vector. Post manufacturing, CAR-T products were assessed in T-cell functional assays in vitro and in vivo, in immunodeficient NSG mice (NOD-scid IL2Rg-null) inoculated with a pre-B-ALL cell line (NALM6) or a DLBCL cell line (TMD-8) to evaluate antitumor activity and CAR-T expansion. Initial data from the dose escalation portion of the Phase 1 study will be reported separately. Results: YTB323 CAR-T products, generated via this novel expansionless manufacturing process, retained the immunophenotype of the input leukapheresis; specifically, naive/T scm cells (CD45RO -/CCR7 +) were retained as shown by flow cytometry. In contrast, the TM process with ex vivo expansion generated a final product consisting mainly of central memory T cells (T cm) (CD45RO +/CCR7 +) (Fig A). Further evidence to support the preservation of the initial phenotype is illustrated by bulk and single-cell RNA sequencing experiments, comparing leukapheresis and final products from CAR-Ts generated using the T-Charge™ and TM protocols. YTB323 CAR-T cell potency was assessed in vitro using a cytokine secretion assay and a tumor repeat stimulation assay, designed to test the persistence and exhaustion of the cell product. YTB323 T cells exhibited 10- to 17-fold higher levels of IL-2 and IFN-γ secretion upon CD19-specific activation compared with CTL*019. Moreover, YTB323 cells were able to control the tumor at a 30-fold lower Effector:Tumor cell ratio and for a minimum of 7 more stimulations in the repeat stimulation assay. Both assays clearly demonstrated enhanced potency of the YTB323 CAR-T cells in vitro. The ultimate preclinical assessment of the YTB323 cell potency was through comparison with CTL*019 regarding in vivo expansion and antitumor efficacy against B-cell tumors in immunodeficient NSG mouse models at multiple doses. Expansion of CD3+/CAR+ T-cells in blood was analyzed weekly by flow cytometry for up to 4 weeks postinfusion. Dose-dependent expansion (C max and AUC 0-21d) was observed for both YTB323 and CTL*019. C max was ≈40-times higher and AUC 0-21d was ≈33-times higher for YTB323 compared with CTL*019 across multiple doses. Delayed peak expansion (T max) of YTB323 by at least 1 week compared with CTL*019 was observed, supporting that increased expansion was driven by the less differentiated T-cell phenotype of YTB323. YTB323 controlled NALM6 B-ALL tumor growth at a lower dose of 0.1×10 6 CAR+ cells compared to 0.5×10 6 CAR+ cells required for CTL*019 (Fig B). In the DLBCL model TMD-8, only YTB323 was able to control the tumors while CTL*019 led to tumor progression at the respective dose groups. This ability of YTB323 cells to control the tumor at lower doses confirms their robustness and potency. Conclusions: The novel manufacturing platform T-Charge™ used for YTB323 is simplified, shortened, and expansionless. It thereby preserves T-cell stemness, associated with improved in vivo CAR-T expansion and antitumor efficacy. Compared to approved CAR-T therapies, YTB323 has the potential to achieve higher clinical efficacy at its respective lower doses. T-Charge™ is aiming to substantially revolutionize CAR-T manufacturing, with concomitant higher likelihood of long-term deep responses. Figure 1 Figure 1. Disclosures Engels: Novartis: Current Employment, Current equity holder in publicly-traded company. Zhu: Novartis: Current Employment, Current equity holder in publicly-traded company. Yang: Novartis: Current Employment, Patents & Royalties. Price: Novartis: Current Employment. Sohoni: Novartis: Current Employment. Stein: Novartis: Current Employment. Parent: Novartis: Ended employment in the past 24 months; iVexSol, Inc: Current Employment. Greene: iVexSol, Inc: Current Employment, Current equity holder in publicly-traded company, Current holder of individual stocks in a privately-held company, Current holder of stock options in a privately-held company. Niederst: Novartis: Current Employment, Current equity holder in publicly-traded company. Whalen: Novartis: Current Employment. Orlando: Novartis: Current Employment. Treanor: Novartis: Current Employment, Current holder of individual stocks in a privately-held company, Divested equity in a private or publicly-traded company in the past 24 months, Patents & Royalties: no royalties as company-held patents. Brogdon: Novartis Institutes for Biomedical Research: Current Employment.

Abstract: Some autoimmune disorders are increasingly recognized as risk factors for non-Hodgkin lymphoma (NHL) overall, but large-scale systematic assessments of risk of NHL subtypes are lacking. We performed a pooled analysis of self-reported autoimmune conditions and risk of NHL and subtypes, including 29 423 participants in 12 case-control studies. We computed pooled odds ratios (OR) and 95% confidence intervals (CI) in a joint fixed-effects model. Sjögren syndrome was associated with a 6.5-fold increased risk of NHL, a 1000-fold increased risk of parotid gland marginal zone lymphoma (OR = 996; 95% CI, 216-4596), and with diffuse large B-cell and follicular lymphomas. Systemic lupus erythematosus was associated with a 2.7-fold increased risk of NHL and with diffuse large B-cell and marginal zone lymphomas. Hemolytic anemia was associated with diffuse large B-cell NHL. T-cell NHL risk was increased for patients with celiac disease and psoriasis. Results for rheumatoid arthritis were heterogeneous between studies. Inflammatory bowel disorders, type 1 diabetes, sarcoidosis, pernicious anemia, and multiple sclerosis were not associated with risk of NHL or subtypes. Thus, specific autoimmune disorders are associated with NHL risk beyond the development of rare NHL subtypes in affected organs. The pattern of associations with NHL subtypes may harbor clues to lymphomagenesis.

Abstract: Introduction. Anti-CD19 chimeric antigen receptor T cells (CART19 or CTL019) have shown impressive clinical activity in B-cell acute lymphoblastic leukemia (B-ALL) and are poised to receive FDA approval. However, some patients relapse after losing CD19 expression. Since CD22 remains highly expressed in relapsed/refractory (r/r) B-ALL even in these patients, anti-CD22 CART (CART22) have been developed. The National Cancer Institute (NCI) reported 4/9 complete remission (CR) in patients receiving CART22, with 100% CR at the highest T cell dose (NCT02315612)(S hah NN, ASH 2016 #650). Patients and Methods. We generated a second-generation CAR22 differing from that used by the NCI only by the use of a longer linker [4x(GGGGS); LL vs. 1x(GGGGS); SL] between the light and heavy chains of the scFv (Fig. 1 A). This construct was tested in two pilot clinical trials in adults (NCT02588456)and children with r/r-ALL (NCT02650414). CART22 cells were generated using lentiviral transduction as in our previous studies. The protocol-specified CART22 dose was 2x106-1x107 cells/kg for pediatric patients & lt;50kg and 1-5x108 for pediatric patients ≥50kg and adult patients,. infused after lymphodepleting chemotherapy. Patient characteristics are described in Table 1. For the adult trial, 5 patients were screened, 4 enrolled (1 patient withdrew consent) and 3 infused (1 manufacturing failure). For the pediatric trial, 9 patients were screened, 8 enrolled (1 screen failure) and 6 infused (two patients were not infused for disease progression). For the preclinical studies, we generated CART22LL and CART22SL and tested them in vivo using xenograft models. NOD-SCID gamma chain deficient (NSG) mice were engrafted with either a luciferase+ standard B-ALL cell line (NALM6) or primary B-ALL cells obtained from a patient relapsing after CART19 (CHP110R). We also used 2-photon imaging to study the in vivo behavior and immune synapse formation and flow cytometry to asses T cell activation. Results. CART22 cells were successfully manufactured for 10/12 patients. In the adult cohort 3/3 patients developed CRS (gr.1-3) and no neurotoxicity was observed; in the pediatric cohort out of 5 evaluable patients (1 discontinued for lineage switch to AML on pre-infusion marrow), 3/5 developed cytokine-release syndrome (CRS) (all grade 2) and 1 patient had encephalopathy (gr.1). CART22 cells expanded in the PB with median peak of 1977 (18-40314) copies/ug DNA at day 11-18. Interestingly, in an adult patient who had previously received CART19 a second CART19 re-expansion was observed following CART22 expansion (Fig 1 B). At day 28, in the adult cohort the patient who was infused in morphologic CR remained in CR, while the other 2 had no response (NR); in the pediatric cohort 2/5 patients were in CR, 1 in partial remission (PR) that then converted to CR with incomplete recovery at 2 months, and 2 NR. No CD22-negative leukemia progression was observed. Since our results with a long linker appeared inferior compared to the previously reported CART22 trial (short linker), we performed a direct comparison of the 2 different CAR22 constructs. In xenograft models, CART22SL significantly outperformed CART22LL (Fi 1 C) with improved overall survival. Moreover, CART22SL showed higher in vivo proliferation at day 17 (Fig 1 D). Mechanistically, intravital 2-photon imaging showed that CART22SL established more protracted T cell:leukemia interactions than did CART22LL, suggesting the establishment of productive synapses (Fig 1 E). Moreover, in vivo at 24 hrs higher T cell activation (CD69, PD-1) was observed in CART22SL from the BM of NALM-6-bearing mice. Conclusions. Here we report the results of two pilot clinical trials evaluating the safety and feasibility of CART22 therapy for r/r B-ALL. Although feasible and with manageable toxicity CART22LL led to modest clinical responses. Preclinical evaluation allowed us to conclude that shortening the linker by 15 amino acids significantly increases the anti-leukemia activity of CART22, possibly by leading to more effective interactions between T cells and their targets. Finally, with the caveats of cross-trial comparison, our data suggest that xenograft models can predict the clinical efficacy of CART products and validate the use of in vivo models for lead candidate selection Disclosures Ruella: Novartis: Patents & Royalties, Research Funding. Maude: Novartis Pharmaceuticals: Consultancy, Other: Medical Advisory Boards. Engels: Novartis: Employment. Frey: Novartis: Research Funding. Lacey: Novartis: Research Funding; Genentech: Honoraria. Melenhorst: Novartis: Research Funding. Brogdon: Novartis: Employment. Young: Novartis: Research Funding. Porter: Incyte: Honoraria; Novartis: Honoraria, Patents & Royalties, Research Funding; Immunovative Therapies: Other: Member DSMB; Genentech/Roche: Employment, Other: Family member employment, stock ownship - family member; Servier: Honoraria, Other: Travel reimbursement. June: WIRB/Copernicus Group: Honoraria, Membership on an entity's Board of Directors or advisory committees; Celldex: Honoraria, Membership on an entity's Board of Directors or advisory committees; Immune Design: Equity Ownership, Membership on an entity's Board of Directors or advisory committees; Novartis: Patents & Royalties, Research Funding; Tmunity Therapeutics: Equity Ownership, Research Funding. Grupp: Jazz Pharmaceuticals: Consultancy; Novartis Pharmaceuticals Corporation: Consultancy, Other: grant; University of Pennsylvania: Patents & Royalties; Adaptimmune: Consultancy. Gill: Novartis: Patents & Royalties, Research Funding.

Abstract: We recently conducted a clinical trial of CD22-directed chimeric antigen receptor (CAR) T cells in children and adults with relapsed or refractory B-cell acute lymphoblastic leukemia (ALL). While we did observe some transient responses, overall outcomes were inferior to another recent trial of CD22 CAR T cells in ALL performed at the NCI (Fry, T.J. et al. Nat Med, 2018). Intriguingly, these trials used a CAR that employed the same antigen-binding and intracellular signaling domains, and differed only in the length of linker connecting the variable regions of the single chain variable fragment (scFv). Based on these clinical observations, we sought to identify how the scFv linker impacts CAR biology and regulates CAR-driven T cell activity. The University of Pennsylvania's CD22 CAR contained a long 20 amino acid scFv linker ("CAR22-L") while the NCI's CAR had a 5 amino acid linker ("CAR22-S"). We began by investigating the impact of linker length on CAR biochemistry. Both CAR22-L and CAR22-S had similar antigen-binding affinities (KD of 1.67nM and 6.05nM, respectively). Chromatography revealed that CAR22-L remained monomeric in solution while CAR22-S formed homodimers. To explore how dimerization influenced surface-membrane biology, we developed GFP-tagged versions of each CAR and performed confocal microscopy on CAR+ T cells. CAR22-L exhibited homogenous surface membrane expression, while CAR22-S appeared to self-aggregate and cluster (Fig. 1a). We investigated the impact of this clustering on receptor signaling and found that CAR22-S demonstrated high levels of signaling molecule activation (i.e. Akt, p70-S6 and STAT3) in the absence of antigen engagement. This is consistent with previous reports establishing that CAR clustering can lead to tonic signaling (Long, A.H. et al. Nat Med, 2015). Importantly, this tonic signaling did not lead to autonomous T cell proliferation. We proceeded to evaluate how clustering and tonic signaling impacted CAR function upon antigen engagement. Microscopic evaluation of CAR T cells combined with CD22+ Nalm6 cells revealed greater actin and microtubule organizing complex polarization (P = 0.02 and 0.01, respectively) in CAR22-S cells, consistent with superior immune synapse formation. This was accompanied by increased phosphorylation of PI3K, MAPK and calcium signaling proteins (Fig. 1b) after CAR engagement. RNA sequencing revealed significantly greater activation of immune response gene programs in CAR22-S cells as compared to CAR22-L after overnight exposure to Nalm6. We next investigated the impact that this enhanced receptor-driven activity had on CAR T cell anti-tumor function. CAR T cells were combined with Nalm6 in vitro and residual Nalm6 was serially quantified, revealing that CAR22-S mediated greater tumor control than CAR22-L, particularly at later time periods (P & lt; 0.001). This was associated with greater secretion of IFNg, IL-2 and TNFa (all P & lt; 0.001). Finally, we compared anti-tumor efficacy in xenograft models of systemic Nalm6. NOD/SCID/cg-/- mice were engrafted with Nalm6 and received 1x106 CAR T cells 7 days later. CAR22-S demonstrated greater in vivo expansion (P & lt; 0.0001) and enhanced control of systemic disease (Fig. 1c,P = 0.017), resulting in prolongation of animal survival (Fig. 1d,P = 0.013). Based on these observations, we have designed a novel, affinity-enhanced CD22 CAR and confirmed that shorter linker length improves anti-tumor activity of this CAR. T cells expressing this CAR are currently undergoing evaluation in a phase I clinical trial (ClinicalTrials.org Identifiers NCT03620058 and NCT02650414). Thus far, 4 children and 2 adults have been infused with manageable toxicity. Early outcomes are promising, with 67% achieving complete remission at day 28, compared to 50% in our original CART22 trials. In summary, by investigating the potential mechanisms for an apparent discrepancy in outcomes between two different clinical trials, we demonstrate that reducing the length of the scFv linker results in significant changes to CAR biochemistry that directly lead to antigen-independent receptor activity. In contrast to previously published data demonstrating that tonic signaling of CD28-costimulated CARs is detrimental to T cell function (Long, A.H. et al. Nat Med, 2015), we found that tonic signaling of 4-1BB-costimulated CARs may be beneficial, possibly by priming T cells for rapid response to antigen. Disclosures Singh: University of Pennsylvania: Patents & Royalties. Frey:Novartis: Research Funding. Engels:Novartis: Employment. Zhao:Novartis: Employment. Peng:Novartis: Employment. Granda:Novartis: Employment. Ramones:Novartis: Employment. Lacey:Novartis: Research Funding; Novartis: Patents & Royalties: Patents related to CAR T cell biomarkers; Tmunity: Research Funding. Young:novartis: Research Funding. Brogdon:Novartis: Employment. Grupp:Roche: Consultancy; GSK: Consultancy; Novartis: Consultancy, Research Funding; Humanigen: Consultancy; CBMG: Consultancy; Novartis: Research Funding; Kite: Research Funding; Servier: Research Funding; Jazz: Other: study steering committees or scientific advisory boards; Adaptimmune: Other: study steering committees or scientific advisory boards; Cure Genetics: Consultancy. June:Novartis: Research Funding; Tmunity: Other: scientific founder, for which he has founders stock but no income, Patents & Royalties. Maude:Novartis: Consultancy; Kite: Consultancy. Gill:Novartis: Research Funding; Tmunity Therapeutics: Research Funding; Carisma Therapeutics: Research Funding; Amphivena: Consultancy; Aro: Consultancy; Intellia: Consultancy; Sensei Bio: Consultancy; Carisma Therapeutics: Equity Ownership. Ruella:AbClon: Membership on an entity's Board of Directors or advisory committees; Nanostring: Consultancy, Speakers Bureau; Novartis: Patents & Royalties: CART for cancer.

Abstract: Introduction Advances in clinical practice for allogeneic hematopoietic cell transplantation (HCT), a potentially curative treatment most frequently indicated for hematologic malignancies, have led to substantial improvements in prognosis. HCT survivors are at risk for a number of post-transplant complications, including the development of new malignancies. Although cutaneous melanoma risk is known to be increased after HCT, no previous study has comprehensively investigated risk factors in order to identify patients at highest risk for melanoma development. The purpose of this study was to identify risk factors for developing melanoma after allogeneic HCT, specifically evaluating the relationship between melanoma and conditioning regimens as well as factors associated with immunosuppression and immune dysfunction. Methods We conducted a nested case-control study of melanoma within a cohort of 21,590 patients receiving a first allogeneic HCT during 1985-2012, as reported to the Center for International Blood and Marrow Transplant Research. Data on patient and transplant characteristics derived from standardized reports pre-HCT, 100 days and 6 months post-HCT, and annually thereafter or until death. The cohort was restricted to non-Hispanic Caucasians because melanoma is rare among other racial/ethnic groups. Among cases with a melanoma diagnosis reported by transplant centers (N=140), 82 (59%) were confirmed by pathology report review. Four controls were matched to each case on age at HCT (±3 years), sex, primary disease, and time since HCT (without a melanoma diagnosis). Conditional logistic regression was utilized to assess risk factors associated with melanoma development after allogeneic HCT. Multivariable models were adjusted for ambient ultraviolet radiation (UVR), estimated based on residence at the time of HCT, because of the known association between UVR and melanoma. Exploratory analyses were conducted to assess melanoma risk by age and time to melanoma development. Results Among the 140 melanoma cases, the median age at HCT was 46 years (range, 1-73 years), 56% were male, and median time from HCT to melanoma was 4 years (range 〈 1-24 years). Patients were most frequently transplanted for chronic myeloid leukemia (24%) followed by acute myeloid leukemia (18%), acute lymphoblastic leukemia (18%), and non-Hodgkin lymphoma (12%). Multivariable analysis showed that melanoma risk was statistically significantly increased among HCT survivors who received myeloablative conditioning regimens with total body irradiation [odds ratio (OR), 95% confidence interval (95%CI): 1.8, 1.0-3.2] or reduced intensity conditioning regimens containing melphalan (OR, 95%CI: 2.6, 1.1-6.0) or fludarabine (OR, 95%CI: 2.7, 1.0-7.3) compared with those receiving a busulfan-containing myeloablative conditioning regimen; acute graft-versus-host disease (GvHD) with stage 2+ skin involvement (OR, 95%CI: 1.9, 1.2-3.1) versus no acute GvHD; chronic GvHD without skin involvement (OR, 95%CI: 1.9, 1.0-3.6) versus no chronic GvHD; and occurrence of keratinocytic carcinoma (OR, 95%CI: 2.4, 1.2-4.8; median time from keratinocyte carcinoma to melanoma: cases=3.5 years, controls=2.8 years). In exploratory analyses of these factors by patient subgroup, melanoma risks associated with acute GvHD stage 2+ skin involvement were especially increased among individuals of younger age at HCT (age 〈 40 years: OR, 95%CI: 3.2, 1.4-7.4) but not among those of older age at HCT. In the multivariable model, no significant associations were observed with other patient and transplant characteristics, including graft source and ex-vivo or in-vivo T-cell depletion. Conclusion In the largest study to date of melanoma risk factors following allogeneic HCT, we report novel associations with specific conditioning regimens, occurrence of acute and chronic GvHD, and occurrence of keratinocyte carcinoma. Our results emphasize the importance of adherence to current surveillance guidelines for HCT recipients, specifically routine skin examination, heightened skin cancer awareness, and photoprotection recommendations, particularly for those survivors at highest risk. Disclosures No relevant conflicts of interest to declare.

Abstract: Abstract 2559 Background. Patients receiving solid organ transplants experience increased risk of subsequent hematologic malignancies, particularly post-transplant lymphoproliferative disorder and non-Hodgkin lymphoma, likely in relation to infection with oncogenic viruses and pharmacologic immunosuppression to prevent graft rejection. However, less is known about the risks for myeloid neoplasms such as acute myeloid leukemia (AML). Methods. We linked data from the US Scientific Registry of Transplant Recipients, a national database of solid organ transplantation, with 13 state and regional cancer registries to obtain cancer occurrence among 175,732 solid organ transplants during 1987–2008. The observed number of patients developing AML was compared to that expected in the general population of the 13 registry areas using standardized incidence ratios (SIRs). Results. AML was identified in 107 solid organ transplant recipients (13.8 cases/100,000 person-years), a rate that was nearly three times higher than expected in the general population [SIR=2.9, 95% confidence interval (CI) 2.4–3.5]. Excess risks were highest among children and young adults but remained significantly elevated among individuals receiving a solid organ transplant prior to age 65 years (SIR, 95%CI: 〈 20 years=9.3, 3.4–20.2; 20–34 years=6.3, 3.2–11.3; 35–49 years=3.9, 2.6–5.6; 50–64 years=2.5, 1.9–3.3; 65+years=1.7, 0.9–2.9). Patients receiving liver or heart and/or lung transplants had higher risks than patients receiving kidney transplants (liver=4.1, 2.9–5.7; heart and/or lung=4.0, 2.7–5.7; kidney=2.0, 1.4–2.7). Risks also were higher among individuals receiving a second solid organ transplant than those receiving their first (second=6.8, 3.5–11.9; first=2.7, 2.2–3.3). Excess risks persisted throughout the 22-year period and showed no trend over time. Conclusions. In the largest population-based study of transplant-related malignancies conducted to date, we demonstrate that patients receiving solid organ transplants have substantially elevated risk for subsequent AML. Future investigations should evaluate the possible role of specific immunosuppressive medications in the etiology of post-transplant AML. Disclosures: No relevant conflicts of interest to declare.

Abstract: Understanding patterns of etiologic commonality and heterogeneity for non-Hodgkin lymphomas may illuminate lymphomagenesis. We present the first systematic comparison of risks by lymphoma subtype for a broad range of putative risk factors in a population-based case-control study, including diffuse large B-cell (DLBCL; N = 416), follicular (N = 318), and marginal zone lymphomas (N = 106), and chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL; N = 133). We required at least 2 of 3 analyses to support differences in risk: (1) polytomous logistic regression, (2) homogeneity tests, or (3) dichotomous logistic regression, analyzing all 7 possible pairwise comparisons among the subtypes, corresponding to various groupings by clinical behavior, genetic features, and differentiation. Late birth order and high body mass index (≥ 35) kg/m2) increased risk for DLBCL alone. Autoimmune conditions increased risk for marginal zone lymphoma alone. The tumor necrosis factor G-308A polymorphism (rs1800629) increased risks for both DLBCL and marginal zone lymphoma. Exposure to certain dietary heterocyclic amines from meat consumption increased risk for CLL/SLL alone. We observed no significant risk factors for follicular lymphoma alone. These data clearly support both etiologic commonality and heterogeneity for lymphoma subtypes, suggesting that immune dysfunction is of greater etiologic importance for DLBCL and marginal zone lymphoma than for CLL/SLL and follicular lymphoma.

Abstract: Intrabone (IB) injection of umbilical cord blood has been proposed as a potential mechanism to improve transplant engraftment and prevent graft failure. However, conventional IB techniques produce low retention of transplanted cells in the marrow. To overcome this barrier, we developed an optimized IB (OIB) injection method using low-volume, computer-controlled slow infusion that promotes cellular retention in the marrow. Here, we compare engraftment of CD34+ cells transplanted in a myeloablative rhesus macaque (RM) model using the OIB method compared with IV delivery. RM CD34+ cells obtained by apheresis were split equally for transduction with lentiviral vectors encoding either green fluorescent protein or yellow fluorescent protein reporters. Following conditioning, one marked autologous population of CD34+ cells was injected directly IB using the OIB method and the other was injected via slow IV push into the same animal (n = 3). Daily flow cytometry of blood quantified the proportion of engrafting cells deriving from each source. Marrow retention was examined using positron emission tomography/computed tomography imaging of 89Zirconium (89Zr)-oxine–labeled CD34+ cells. CD34+ cells injected via the OIB method were retained in the marrow and engrafted in all 3 animals. However, OIB-transplanted progenitor cells did not engraft any faster than those delivered IV and contributed significantly less to hematopoiesis than IV-delivered cells at all time points. Rigorous testing of our OIB delivery system in a competitive RM myeloablative transplant model showed no engraftment advantage over conventional IV infusion. Given the increased complexity and potential risks of IB vs IV approaches, our data do not support IB transplantation as a strategy to improve hematopoietic engraftment.