Abstract: The capsid protein (CA or p24) of human immunodeficiency virus type 1 (HIV-1) plays a major role both early and late in the virus replication cycle. Many studies have suggested that the C-terminal domain of this protein is involved in dimerization and proper assembly of the viral core. Point mutations were introduced in two conserved sites of this region and their effects on viral protein expression, particle assembly and infectivity were studied. Eight different mutants (L205A+P207A, L205A, P207A, 223GPG225AAA, G223A, P224A, G225A and V221G) of the infectious clone pNL4-3 were constructed. Most substitutions had no substantial effect on HIV-1 protein synthesis, yet they impaired viral infectivity and particle production. The two mutants P207A and V221G also had a profound effect on Gag–Pol protein processing in HeLa–tat cells. However, these results were cell line-specific and Gag–Pol processing of P207A was not affected in 293T cells. In HeLa–tat cells, no virus particles were detected with the P207A mutation, whereas the other mutant virus particles were heterogeneous in size and morphology. None of the mutants showed normal, mature, conical core structures in HeLa–tat cells. These results indicate that the two conserved sequences in the C-terminal CA domain are essential for proper morphogenesis and infectivity of HIV-1 particles.

Abstract: Background: Since continuous treatment with tyrosine kinase inhibitors (TKIs) has dramatically improved the survival of patients with chronic myeloid leukemia (CML), it is of interest to examine the possible risk of long-term adverse events. Previous studies have presented conflicting results regarding risk of second malignancies. Our aim was to examine the development of second malignancies (except acute myeloid or lymphoblastic leukemia, myelodysplastic syndromes or non-melanoma skin cancer) in CML chronic phase patients diagnosed after the introduction of TKI treatment. Materials and methods: We studied the development of second malignancies in 868 patients diagnosed with CML in chronic phase 2002 to 2011 using the Swedish CML register, cross-linked to the Swedish Cancer register. Each patient was followed from the time of CML diagnosis until death from any cause, date of allogeneic hematopoietic stem cell transplantation (SCT) or end of study on December 31, 2011, whichever came first. SCT was used as an endpoint because of the well established increased risk of second malignancies after this procedure. Standardized Incidence Ratios (SIR) were calculated to assess the risk of a second malignancy by dividing the number of observed second malignancies with the number of expected malignancies in the Swedish population, using data from the Swedish Cancer Register. The expected numbers of malignancies were determined by dividing the CML population according to 5-year age groups, sex, region of residence (6 regions) and calendar year. The number of person-years in each stratum was multiplied with the incidence of malignancies or deaths found in the corresponding strata in the general population. Results: With a median follow-up of 3.7 (range 0-9.9) years, 65 (7.5%) patients developed 75 second cancers (non-hematologic), 49 of these of invasive type. Compared to expected rates in the background population matched by age, sex, region of residence (6 regions) and calendar year, the risk of second malignancies was significantly higher in the CML cohort, with a Standardized Incidence Ratio (SIR) of 1.5 (95 % CI 1.13-1.99). SIR before and after the second year following diagnosis of CML was 1.6 (95 % CI 1.004-2.38) and 1.5 (95 % CI 0.98-2.11), respectively. Looking at CML subpopulations, the increased risk of developing a second malignancy reached statistical significance for females (SIR: 1.8; 95 % CI 1.18-1.99), but not for males (SIR: 1.3; 95 % CI 0.85-1.91), and for patients above 60 years of age at diagnosis (SIR: 1.5; 95 % CI 1.05–1.96). Assessment of risk by cancer type was hampered by small numbers. However, the data at hand indicate an increased risk for gastrointestinal cancer (SIR: 3.0; 95 % CI 1.60-5.16), as well as nose and throat cancer (SIR: 37.1; 95 % CI 7.46-108.40), table 1. Conclusions: Utilizing large, population-based registries with data accumulated during the TKI era, our results indicate that CML patients, compared to the normal control population, are at an 50% increased risk of developing a second malignancy. Similar SIR before and after the second year following the diagnosis of CML may indicate that these findings are linked to the CML disease itself, rather than to the TKI treatment. Further studies and longer follow-up seem however warranted. Physicians caring for CML patients should be aware of signs and symptoms of other malignancies in this patient population. Table 1 Standardized Incidence Ratios for second malignancies (excluding cases of non-melanoma skin cancer, AML, ALL and MDS) among 868 Swedish CML patients diagnosed between 2002 and 2011. Total follow up time 3293 person-years (median 3.7 years). Variable Observed Expected SIR (Observed/Expected) 95 % CI for SIR Overall 52 34 1.5 1.13–1.99 Men 26 20 1.3 0.85–1.91 Women 26 14 1.8 1.18–2.66 Age 〈 60 years 10 5 1.9 0.89–3.42 Age ³ 60 years 42 28 1.5 1.05–1.96 Second cancer type Prostate 14 8 1.8 0.96–2.94 Gastrointestinal 13 4 3.0 1.60–5.16 Gynecological 4 1 3.6 0.98–9.30 Nose and Throat 3 0,1 37.1 7.46-108.40 Lung 2 2,7 0.7 0.08-2.67 Breast 4 4,2 0.98 0.26-2.45 Disclosures Björkholm: Novartis: Research Funding; Shire: Research Funding; Merck: Research Funding; Amgen: Honoraria, Research Funding; Pfizer: Research Funding; Bristol-Myers Squibb: Honoraria; Celgene: Honoraria; Akinon: Honoraria; Nordic Nanovector: Honoraria. Richter:Ariad: Honoraria; Bristol-Myers Squibb: Honoraria; Novartis: Honoraria. Själander:Novartis: Honoraria.

Abstract: Acute myeloid leukemia (AML) is most common in the elderly, and most elderly are thought to be unfit for intensive treatment because of the risk of fatal toxicity. The Swedish Acute Leukemia Registry covers 98% of all patients with AML (nonacute promyelocytic leukemia) diagnosed in 1997 to 2005 (n = 2767), with a median follow-up of 5 years, and reports eligibility for intensive therapy, performance status (PS), complete remission rates, and survival. Outcomes were strongly age and PS dependent. Early death rates were always lower with intensive therapy than with palliation only. Long-term survivors were found among elderly given intensive treatment despite poor initial PS. Total survival of elderly AML patients was better in the geographic regions where most of them were given standard intensive therapy. This analysis provides unique real world data from a large, complete, and unselected AML population, both treated and untreated, and gives background to treatment decisions for the elderly. Standard intensive treatment improves early death rates and long-term survival compared with palliation. Most AML patients up to 80 years of age should be considered fit for intensive therapy, and new therapies must be compared with standard induction.

Abstract: Acute myeloid leukemia (AML) is an aggressive hematologic malignancy, exhibiting high levels of reactive oxygen species (ROS). ROS levels have been suggested to drive leukemogenesis and is thus a potential novel target for treating AML. MTH1 prevents incorporation of oxidized nucleotides into the DNA to maintain genome integrity and is upregulated in many cancers. Here we demonstrate that hematologic cancers are highly sensitive to MTH1 inhibitor TH1579 (karonudib). A functional precision medicine ex vivo screen in primary AML bone marrow samples demonstrated a broad response profile of TH1579, independent of the genomic alteration of AML, resembling the response profile of the standard-of-care treatments cytarabine and doxorubicin. Furthermore, TH1579 killed primary human AML blast cells (CD45+) as well as chemotherapy resistance leukemic stem cells (CD45+Lin−CD34+CD38−), which are often responsible for AML progression. TH1579 killed AML cells by causing mitotic arrest, elevating intracellular ROS levels, and enhancing oxidative DNA damage. TH1579 showed a significant therapeutic window, was well tolerated in animals, and could be combined with standard-of-care treatments to further improve efficacy. TH1579 significantly improved survival in two different AML disease models in vivo. In conclusion, the preclinical data presented here support that TH1579 is a promising novel anticancer agent for AML, providing a rationale to investigate the clinical usefulness of TH1579 in AML in an ongoing clinical phase I trial. Significance: The MTH1 inhibitor TH1579 is a potential novel AML treatment, targeting both blasts and the pivotal leukemic stem cells while sparing normal bone marrow cells.

Abstract: We analyzed 34 cases of urothelial carcinomas by miRNA, mRNA and genomic profiling. Unsupervised hierarchical clustering using expression information for 300 miRNAs produced 3 major clusters of tumors corresponding to Ta, T1 and T2‐T3 tumors, respectively. A subsequent SAM analysis identified 51 miRNAs that discriminated the 3 pathological subtypes. A score based on the expression levels of the 51 miRNAs, identified muscle invasive tumors with high precision and sensitivity. MiRNAs showing high expression in muscle invasive tumors included miR‐222 and miR‐125b and in Ta tumors miR‐10a. A miRNA signature for FGFR3 mutated cases was also identified with miR‐7 as an important member. MiR‐31, located in 9p21, was found to be homozygously deleted in 3 cases and miR‐452 and miR‐452* were shown to be over expressed in node positive tumors. In addition, these latter miRNAs were shown to be excellent prognostic markers for death by disease as outcome. The presented data shows that pathological subtypes of urothelial carcinoma show distinct miRNA gene expression signatures. © 2008 Wiley‐Liss, Inc.

Abstract: Clinical trials show that tyrosine kinase inhibitor (TKI) treatment can be discontinued in selected patients with chronic myeloid leukaemia (CML). Although updated CML guidelines support such procedure in clinical routine, data on TKI stopping outside clinical trials are limited. In this retrospective study utilising the Swedish CML registry, we examined TKI discontinuation in a population‐based setting. Out of 584 patients diagnosed with chronic‐phase CML (CML‐CP) in 2007–2012, 548 had evaluable information on TKI discontinuation. With a median follow‐up of nine years from diagnosis, 128 (23%) discontinued TKI therapy (≥1 month) due to achieving a DMR (deep molecular response) and 107 (20%) due to other causes (adverse events, allogeneic stem cell transplant, pregnancy, etc). Among those stopping in DMR, 49% re‐initiated TKI treatment (median time to restart 4·8 months). In all, 38 patients stopped TKI within a clinical study and 90 outside a study. After 24 months 41·1% of patients discontinuing outside a study had re‐initiated TKI treatment. TKI treatment duration pre‐stop was longer and proportion treated with second‐generation TKI slightly higher outside studies, conceivably affecting the clinical outcome. In summary we show that TKI discontinuation in CML in clinical practice is common and feasible and may be just as successful as when performed within a clinical trial.

Abstract: Background: Tyrosine kinase inhibitors (TKIs) have significantly improved the treatment of CML. Even though TKI treatment is generally not considered curative, recent studies have shown that nearly half of CML patients who have achieve good and durable responses are able to stop the TKI treatment. However, patients who have successfully discontinued TKI treatment still have residual disease. We hypothesized that the immune system plays a role in treatment free remission (TFR), and our preliminary results in the EURO-SKI trial showed that patients who relapse early after imatinib discontinuation have decreased numbers and frequencies of NK cells. In EURO-SKI trial relapse was defined as the loss of major molecular response (MMR). We now aimed to analyze in more detail the phenotype and function of the NK cells in order to understand their role in TFR. Methods: Lymphocyte subclass analysis (the number of NK-, T- and B-cells) was performed at the time of therapy discontinuation and 1 month after the imatinib discontinuation in patients participating in the EURO-SKI stopping trial in the Nordic countries (n=105, results are presented from patients who have reached 6 months follow-up). More detailed immune phenotype and functional assays (NK-cell degranulation and secretion of Th1 type of cytokines IFN-γ/TNF-α) were analyzed from a proportion of patients (n=31). Results: Imatinib treated patients remaining in remission for 6 months (non-relapsing, n=48, median age 60,5 years) displayed an increased amount of NK cells at the time of drug discontinuation (18.6% vs. 11.0%, p=0.02, NK-cell count 0.25 x109 cells/L vs. 0.184 x109 cells/L m, p=0.059) compared to patients who relapsed early (before 5 months, n=29, median age 60,5 years). Furthermore, the NK cell frequency in non-relapsing patients was even higher than in healthy controls (11.5%, n=48, p=0.001). T and B cell counts and frequencies showed no differences between the groups. Detailed analysis of the NK cell compartment displayed a more mature phenotype for the NK cells in non-relapsing patients. Larger frequencies of NK cells from early relapsing patients was CD56bright compared to non-relapsing patients (4.8% vs. 2.7% of CD56 NK cells, p=0.04). Furthermore, patients who had higher frequencies of CD56bright NK cells than median had decreased TFR at 6 months (42%) compared to patients with lower frequency (70%, p=0.01). In addition, there was a trend towards more CD57pos (78% (n=21) vs. 66% (n=10), p=0.09) CD56dim NK cells in non-relapsing patients. To further study the mature NK cells in non-relapsing patients, recently identified markers (FceRgneg, PLZFneg, SYKneg, EAT-2neg) for adaptive NK cells were analyzed. Interestingly, there was a trend that non-relapsing patients had higher frequencies of adaptive-like NK cells. For example, non-relapsing patients had more CD56dim NK cells that had down regulated EAT-2 (2.8% (n=6) vs. 1.3% (n=5) of lymphocytes, p=0.03) and more CD56dim NK cells expressing NKG2D (11.2% vs. 2.6% of lymphocytes, p=0.02) and NKp46 (13.6% vs. 3.9% of lymphocytes, p=0.05). Moreover, after imatinib discontinuation the expression of transcription factor Eomes increased in the CD56dim NK cells of the early relapsing group (baseline MFI 2045 vs. 1 month 3480, p=0.06), while in non-relapsing group it seemed to even decrease (baseline MFI 2273 vs. 1 month 1980, p=0.13) pointing towards an adaptive phenotype. No significant differences between the groups were observed when degranulation against K562 cell line was studied. However, CD16neg NK cells from non-relapsing patients responded to K562 stimulation by secreting more TNFα/IFNγ compared to the early relapsing patients (21% vs. 13% of CD56pos CD16neg NK cells, p=0.01). Furthermore, patients whose CD16neg NK cells had higher than median TNFα/IFNγ secretion when stimulated with K562 cells showed an increased TFR at 6 months (78%) compared to patients who had lower TNFα/IFNγ secretion than median (37%, p=0.005). Conclusions: CML patients who successfully discontinued imatinib therapy displayed a higher number and frequency of peripheral blood mature, adaptive-like NK cells capable of secreting cytokines TNFα/IFNγ relative to relapsing patients. How such NK cells may contribute to maintenance of treatment free remission is still unknown. Nonetheless, our results warrant further clinical studies with NK-cell modulating agents. Disclosures Muller: Novartis: Honoraria, Other: Consulting or Advisory Role, Research Funding; ARIAD Pharmaceuticals Inc.: Honoraria, Other: Consulting & Advisory Role, Research Funding; BMS: Honoraria, Other: Consulting or Advisory Role, Research Funding. Hjorth-Hansen:Novartis: Honoraria; Ariad: Honoraria; Bristol-Myers Squibb: Research Funding; Pfizer: Honoraria, Research Funding. Saussele:Pfizer: Honoraria, Other: Travel grant; BMS: Honoraria, Other: Travel grant, Research Funding; Novartis Pharma: Honoraria, Other: Travel grant, Research Funding; ARIAD: Honoraria. Mahon:ARIAD: Consultancy; Novartis: Consultancy, Honoraria; Bristol-Myers Squibb: Consultancy, Honoraria; Pfizer: Consultancy. Porkka:Bristol-Myers Squibb: Honoraria; Celgene: Honoraria; Novartis: Honoraria; Pfizer: Honoraria. Richter:Ariad: Honoraria; Bristol-Myers Squibb: Honoraria; Novartis: Honoraria. Mustjoki:the Finnish Cancer Societies: Research Funding; Pfizer: Honoraria, Research Funding; Academy of Finland: Research Funding; Sigrid Juselius Foundation: Research Funding; Finnish Cancer Institute: Research Funding; Signe and Ane Gyllenberg Foundation: Research Funding; Bristol-Myers Squibb: Honoraria, Research Funding; Novartis: Honoraria, Research Funding.

Abstract: Background: The etiology of chronic myeloid leukemia (CML) is essentially unknown with high doses of ionizing radiation being the only well established risk factor. We have recently published two large population-based studies showing an increased prevalence of other malignancies prior, as well as subsequent to a diagnosis of CML (Gunnarsson et al, Br J Haematol. 2015 Jun; 169(5): 683-8 and Gunnarsson et al, Leukemia. 2016 Jul; 30(7): 1562-7). One may therefore speculate that CML patients may have an increased congenital or acquired susceptibility to develop cancer. In the former case, one would expect an increased prevalence of malignancies among first-degree relatives (FDR) to CML patients. In a previous report based on the Swedish Cancer Registry, no increased aggregation of malignancies was detected among family members to CML patients diagnosed between 1958 and 2004 (Bjorkholm et al, Blood. 2013 Jul 18; 122(3): 460-1). However, a more strict definition of CML (requiring e.g. thepresence of a Philadelphia chromosome or the BCR/ABL fusion gene) was introduced with the updated WHO classification in 2002, making subsequently diagnosed CML cohorts more homogenous. Materials and methods: Aiming to establish the prevalence of malignancies among FDR of a large and well-defined contemporary CML cohort in Sweden compared to carefully matched controls, we have used four large Swedish population based registers. To identify Swedish patients with CML diagnosed between 2002 and 2013, we used the Swedish CML Register to which all CML patients diagnosed January 1st 2002 and later are reported. FDR were identified by use of the Swedish Multi-Generation Register, which comprises information about parent-sibling-offspring relationships of persons that has been registered in Sweden at some time since 1961 and born later than 1932. By linking this cohort to the Swedish Cancer Register, we retrieved information about malignancies for each FDR. Each CML patient was matched with five, age-, gender- and county of residence-matched controls, selected from the Swedish Total Population Register. All controls had to be alive and free of CML at the time of CML diagnosis for the matching CML patient. To calculate odds ratio (OR) and 95% confidence intervals (CI), conditional logistic regression were used. Results: In the Swedish CML register, 984 patients were identified. Among them 184 patients were excluded due to a birth year prior to 1932. Among the 800 remaining CML patients, 4 287 FDR were identified and included in the analysis (parents: 1 346, siblings: 1 497 and children: 1 444). Correspondingly, 20 930 matched controls were included in the analysis. In total, 611 malignancies were identified among the FDR of CML patients compared to 2844 in the control group yielding an OR of 1.057 (95% CI 0.962 - 1.162). Neither hematological malignancies nor solid tumors were increased in the CML-FDR group (Table 1). Notably, none of the FDRs in the CML-FDR group had a CML diagnosis. Conclusions: Using data from four large Swedish population based registers and based on the fate of more than 4 000 FDR of 800 CML patients diagnosed in the modern era of cytogenetics, as well as closely matched CML-free controls, we show that there is no familial aggregation of malignancies in FDRs of patients with CML. These results suggest that a hereditary predisposition to develop cancer is unlikely to be a part of the pathogenesis of CML. Disclosures Höglund: Akinion Pharmaceuticals: Consultancy; Janssen-Cilag: Honoraria. Lambe:AstraZeneca: Other: Stock Ownership ; Pfizer: Other: Stock Ownership . Richter:Pfizer: Honoraria, Research Funding; BMS: Honoraria, Research Funding; Novartis: Honoraria, Research Funding; Ariad: Honoraria, Research Funding. Själander:ARIAD: Consultancy.