iMN041 is an immunotherapeutic and an effective treatment in mouse xenograft models of pancreatic cancer, renal cancer and triple negative breast cancer

Background iMN013 (5-aza-2’,2’-difluorodeoxycytidine), a DNA methyl transferase inhibitor and ribonucleotide reductase inhibitor, and its prodrug iMN041 (3’,5’-di-trimethylsilyl-2’,2’-difluro-5-azadeoxycytidine), have been shown to be active in mouse xenograft models of hematogenous and solid tumors. In a xenograft of non-small cell lung cancer (NCI-H460), iMN041 treated mice demonstrated a marked inflammatory response upon analysis of tumor histology, which was hypothesized to be mediated by upregulation of natural killer (NK) cells. This study aimed to characterize the antitumor immune responses generated by iMN041 and test the efficacy iMN041 in solid tumors with poor prognosis. Methods In the Renca syngeneic mouse model, tumors were harvested following two doses of iMN041 or vehicle control, and analyzed by fluorescent-activated cell sorting for an antitumor immune response. iMN041 was also tested for tumor growth inhibition and animal survival for up to 42 days in xenograft models of pancreatic, renal, and triple negative breast cancer. Results Tumors from mice implanted with the Renca cell line and treated with iMN041 demonstrated an increase in granzyme B in NK ( p = 0.024) and NKT cells ( p = 0.004), an increase in the ratios of CD8-T to regulatory T cells (Treg) ( p = 0.0026) and CD4-T to Treg cells ( p = 0.022) and a decrease in myeloid-derived suppressor cells ( p = 0.040), compared to vehicle controls. A significant decrease in MAGE-A positive tumor cells in treated mice, concordant with a proportional decrease in all live tumor cells, suggests that these cells are one of the main targets of the activated immune system. Xenograft models of the triple negative breast cancer cell line DU4475, renal cancer cell lines 786-O and Caki-1, and pancreatic cancer cell lines CFPAC-1 and SW1990, demonstrated significantly lower tumor volumes, and, where there were a sufficient number of events, significantly improved survival in treated mice compared to vehicle control mice. Conclusions In mouse cancer models, iMN041 is an effective treatment for solid tumors mediated in part through a unique antitumor immune response.

In vitro, iMN013 demonstrated activity against one or more cell lines in all nine tumor tissues in the NCI60 panel, including breast, colon, central nervous system, renal, lung, melanoma, ovarian, prostate and hematogenous tissues.In leukemic cell lines, iMN013 induced morphological changes that were suggestive of cell differentiation and lead to cell apoptosis.Subsequently, iMN013 was shown to be an effective treatment in mouse xenograft models of leukemia (HL-60) and colon cancer (LoVo) [1].Because of the short half-life of IMN013, the prodrug, iMN041 (3' ,5'-di-trimethylsilyl-2' ,2'-difluro-5-azadeoxycytidine, previously NUC041), was synthesized and developed.A half-life of up to 3.4 hours was observed for iMN013 released from iMN041 in mice.In an animal model of non-small cell lung cancer (NCI-H460), the administration of IMN041 led to tumor regression.Based on tumor histology, it was hypothe sized that part of the mechanism of action of iMN041 in nude mice was through upregulation of the immune system and, in particular, natural killer (NK) cells [2].Following further refinement of the iMN041 formulation, the current study was initiated to demonstrate (1) the effect of iMN041 on the upregulation of the antitumor immune response in a syngeneic tumor mouse model and (2) the efficacy of iMN041 in mouse xenografts of human clear cell renal cell cancer (ccRCC), pancreatic cancer and triple negative breast cancer (TNBC).
All cell lines were grown in RPMI 1640 medium supplemented with 10% fetal bovine serum (FBS), 0.1 mM non-essential amino acids, and 1 mM sodium pyruvate.iMN013 (10 mM) was solubilized in ice-cold phosphatebuffered saline (PBS) at pH 7.4 immediately prior to use.One 96 well plate for each cell line was seeded at 5,000 cells per well in a total volume of 50 µL per well and left overnight.The following day, cells were exposed to serial dilutions of IMN013 ranging from 100 µM to 0.1 µM.The drug exposed cells were incubated at 37°C for 72 hours (h).
In wells redosed every 12 h.After a 12 h incubation with the drug, all media were removed from the control wells and replaced with fresh media, whereas all media were removed from the treated wells and replaced with fresh media with the appropriate iMN013 concentration.For DU4475, because the cells grew in suspension, 1 µL of PBS or the requisite concentration of the study drug was added every 12 h to the medium.
At the end of the 72 h exposure period, the plates were removed for the CellTiter-Glo assay from an incubator at 37°C and 5% CO2, and placed on the bench at room temperature for 30 minutes (min).The CellTiter-Glo reagent (100 µL) was added, mixed for 2 min and incubated for 10 min at room temperature.Luminescence was recorded using a Synergy 4.0.

Formulation
The formulation for iMN041 (Latitude Pharmaceuticals, San Diego, CA, USA), was composed of soy lethicin (S-100), DSPE-PEG 2000 (9% weight/weight for FS-19 and 10% for FS-14), sesame oil and alcohol.These four constituents were placed in a vial and warmed to 40°C until all products were dissolved, and the vehicle was vortexed.Subsequently, the vehicle was filtered through a 0.22 µm syringe filter, iMN041 was added, and the formulated product was heated to 40°C, vortexed, and stored at -20°C.

Analytical method for iMN013
All blood samples were transferred to pre-chilled commercial EDTA-K2 tubes.Blood was transferred to an assay tube and IS6 in acetonitrile (ACN) was added to achieve a final ratio in blood internal standard of 6 in 1 in ACN (labetalol, tolbutamide, verapamil, dexamethasone, glyburide, and celecoxib 100 ng/mL for each at 1:10 (volume:volume)).The samples were centrifuged at 12,000 x g at 4°C for 15 min to separate the supernatant as soon as possible.Supernatant samples were collected and transferred into polypropylene tubes, quickly frozen on dry ice, and stored at -70±10°C until LC/MS/MS analysis.
Plasma concentration vs. time data were plotted and analyzed by non-compartmental approaches using the Phoenix WinNonlin 6.3 software program.Pharmacokinetic (PK) parameters were calculated according to the dosing route.

Animal tumor models
The following tumor cells lines were used in this series of experiments: Renca, 786-O (RRID:CVCL_1051), Caki-1 (RRID:CVCL_0234), SW1990, CFPAC-1, and DU4475.Tumor cells were maintained in RPMI-1640 medium supplemented with 10% FBS at 37°C in an atmosphere of 5% CO2.Cells in the exponential growth phase were harvested and counted for tumor inoculation.BALB/c nude, female (Zhejiang Vital River Laboratory Animal Technology Co., Ltd., Strain code: 409), weighing approximately 18-22 g, were used in these studies (n = 10/group), except for Renca studies which used BALB/c female mice (Zhejiang Vital River Laboratory Animal Technology Co., Ltd., Strain code: 211).Each mouse was inoculated subcutaneously (SC) in the right flank with tumor cells (5 X  10 6 ) in 200 µL PBS mixed with Matrigel (50:50) for tumor development.To ensure minimum variation in tumor size, typically 1.8-fold the number of animals were inoculated than were required for the study.The animals were randomized and treatment was initiated when the average tumor size reached the specified size for the study.
Before commencement of treatment, all animals were weighed and tumor volumes were measured.As tumor volume can affect the effectiveness of any given treatment, mice were assigned to groups using a randomized block design based on their tumor volumes.This ensured that all groups were comparable at baseline.After inoculation, animals were monitored daily for morbidity and mortality.Mice administered > 0.6 mg iMN041 had their dose reduced to 0.6 mg if their weight loss was > 5% and < 10%.The treated mice had their dose held if the weight loss was > 10%.The study was terminated at 6 weeks, if the animals survived that period.Tumor sizes were measured twice per week in two dimensions using a caliper, and the volume was expressed in mm 3 using the formula: V = 0.5 a X b 2 where a and b are the long and short diameters of the tumor, respectively.
In this study, an event was defined as animal death, body weight loss > 20%, or a tumor burden > 2 g.The latter two criteria were required by the animal-use protocol and animal welfare policy of WuXi App Tec and the animals were then euthanized.

Histology
Tumors from mice inoculated with Caki-1 were fixed in 10% neutral buffered formalin.The fixed neoplasm was trimmed, processed, embedded and microtomed (approximately 4 µm sections).Tissue sections were mounted on glass slides, stained with hematoxylin and eosin (H&E), and coverslipped.Slides were submitted to a veterinary pathologist for a histopathologic evaluation.HALO software was trained to classify regions of the tissue into active tumor and non-tumor components.Non tumor components included stroma and areas of tumor necrosis, and from these data the percentage of tumor necrosis was determined.

Statistical analysis
Power analysis: In xenograft models, n = 10/group will provide a 0.986 average power to detect a ratio of tumor volume in iMN041 treated animals to vehicle control animals of (T/C) below 0.4 [3].
Statistical analyses were performed using GraphPad Prism version 9.5.0.All p values were two-tailed.
All statistical analyses, except those mentioned below, were performed using an unpaired t-test, except for the comparison of Renca, 786-O and Caki-1 tumor volumes, where the starting tumor volumes covered a wider range, from 33 to 77 mm 3 for Renca, 78 to 132 mm 3 for 786-O and 66 to 130 mm 3 for Caki-1.In these cases, animals were ranked by starting tumor volume, paired from the lowest to the highest volume, and a matched-pair t-test was performed.Survival analysis was performed using the definition of animal death as per animal tumor models and a test for significance using the log-rank (Mantel-Cox) test.Risk tables are presented in Additional file 2: Appendix B.

IC50 of cell lines treated with iMN013
iMN013 has been tested in numerous cell lines, including those of the NCI60 panel [1].Because iMN013 undergoes hydrolysis in an aqueous medium, iMN013 half-life was determined in tissue culture medium under standard conditions and found to be 1.5 hours (data not shown).Therefore, the IC50 of selected cell lines was determined after redosing with iMN013 every 12 h (Table 1).

Formulation development
FS-14, an improved derivative of a suspension formulation used in a previously published study [2], was initially used in animal experiments because of its filterability and better injectability.In subsequent experiments this was replaced by FS-19.Pharmacokinetic studies were performed in rats.Three rats were injected SC with 100 µL of 60 mg/mL iMN041 (Table 2).Mean weight of rats injected with FS-14 was 248.7 g, while that of rats injected with FS-19 was 280.7 g.
Screening pharmacokinetics were performed on iMN041 in FS-19 on 3 dogs and demonstrated a half-life of 4.3 hours.

Mouse tumor models
iMN041 was tested in three different tissue types in animal models.In renal cancer, iMN041 was tested in a syngeneic Renca model to determine whether iMN041 upregulated the antitumor immune response in immunocompetent hosts.iMN041 was also tested in xenograft models of human cancer, the TNBC cell line DU4475, ccRCC cell lines 786-O and Caki-1, and pancreatic cancer cell lines CFPAC-1 and SW1990.For the efficacy experiments, iMN041 was administered SC every other day (qod) at the indicated dose for up to 42 days.

FACS analysis of tumors in the Renca syngeneic model
When the tumor reached an approximate volume of 270 mm 3 , treatment of BALB/c female mice was initiated with 1 mg iMN041 SC qod for two doses or the same volume of PBS (n = 4 per group).This starting tumor volume was necessary to provide sufficient tumor for FACS analysis 4 days after the start of treatment.At that time, tumors were harvested and subjected to FACS analysis (Fig. 1).

Renca syngeneic tumor model of iMN041 efficacy
Renca cells are reported to have cells have one wild type (WT) p53 allele and one allele with the R210C mutation, the effect of which on p53 activity is unclear [4].As shown in Fig. 2, the tumor volume in the treated mice was significantly smaller than that in the control mice on study days (days) 2-16 (p < 0.01), and the median survival of the treated mice was significantly increased (25 vs. 16 days, p < 0.0001).

Renal cancer xenograft models of iMN041 efficacy
Two different cell lines were implanted into nude mice.
The 786-O cell line is a human ccRCC cell line that is Von Hippel Lindau (VHL) defective and p53 mutant.The Caki-1 cell line originates from metastatic ccRCC and is WT VHL and p53 [5,6].As in Fig. 3A, mice with 786-O had significantly lower (p < 0.05) tumor volume in treated (0.56 mg qod in FS-14) vs. control animals on days 4-42 (Fig. 3A).In the treated group, one mouse was cured, and no tumor was found by histopathology.No mortality was recorded in iMN041 treated or vehicle control groups.
Mice with Caki-1 implants (Fig. 3B) had significantly lower (p < 0.05) tumor volumes in treated (0.56 mg qod in FS-14) compared to control animals on days 10-35 (Fig. 3B).The study was terminated as per the protocol on day 42; hence, the median survival of treated mice vs. control mice could not be determined (Fig. 3C).Three mice were euthanized for > 20% weight loss in the control group and none in the treated group.These two groups of mice underwent a histologic study to quantitate the amount of tumor necrosis.Necrosis was present in 22.0% of untreated tumor cells vs 9.4% of treated tumor cells (p = 0.021 (see Additional file 1: Appendix A).
As shown in Fig. 3D, mice with Caki-1 implants had signicantly lower tumor volumes noted in treated (0.8 mg qod in FS-19) vs. control animals, (p < 0.05) days 6-42.Mortality was insufficient for the evaluation of survival (death of one mouse in iMN041 treated and vehicle control groups).A comparison was performed on effectiveness of 0.8 mg dose on day 34 vs. 0.56 mg dose on day 35 (day 35 was the last day when all vehicle control mice in the 0.56 mg study were alive).Tumors were rank ordered by starting tumor volume, and then a ratio was calculated for matched pairs of tumor volume from treated animals divided by tumor volume in control animals.A comparison was then performed between the ratios of the two doses.The mean tumor ratio (iMN041/vehicle) in the 0.56 mg study was 0.66 vs. 0.36 in the 0.8 mg study (p = 0.044).

Pancreatic xenograft models of iMN041 efficacy
CFPAC-1 is a p53 mutant human ductal adenocarcinoma cell line [5].SW1990 is a cell line derived from metastatic pancreatic adenocarcinoma and is variously described as p53 WT [7] or mutant [5].
Tumor volumes in mice treated with iMN041 and implanted with SW1990 were significantly smaller than those in control mice on days 4-36 (p < 0.025) (Fig. 4A).The median survival of treated mice was significantly longer than that of control mice (42 vs. 30 days, p < 0.0001) (Fig. 4B).
Based on a tolerability study in immunocompetent CD-1 male mice (data not shown), mice implanted with CFPAC-1 were started on a dose of 1.2 mg SC qod of iMN041 in FS-19 or PBS (n =10 per group) (see Fig. 4C).Because of toxicity, the dose was reduced to 1 mg SC qod on day 6 and then 0.8 mg SC qod on day 16.Two mice died because of drug toxicity in the treated group (one day 4, the other day 6).The tumor volumes in the treated mice were significantly smaller than those in the control mice on days 2-42 (p < 0.0001).There was insufficient mortality to determine survival rates.

Triple negative breast cancer xenograft of iMN041 efficacy
The p53 WT DU4475 cell line was derived from a patient with TNBC [5].Treated mice implanted with DU4475 were initially administered at two different doses (see Fig. 5A) but mice, particularly in the 0.8 mg group, required dose adjustments (see Materials and Methods); hence, the dose was decreased in both treated groups to 0.5 mg qod on day 8 because of concern that weight loss in the treated and control groups could complicate the assessment of drug toxicity and efficacy.Tumor volume in treated mice was significantly smaller than that of control mice: In the 0.8 mg group, on days 4-20 (p < 0.05) and in the 0.6 mg group, on days 4-20 (p < 0.01).The median survival of 0.8 mg treated mice vs. control mice was 21 vs. 18 days (p = 0.019) and for the 0.6 mg treated mice was 25 vs. 18 days (p = 0.0032) (Fig. 5B).

Discussion
iMN013 has been shown to be a DNMTI and an RNRI.Its mechanism of action as a DNMTI and RNRI is identical to that of decitabine and gemcitabine, respectively, although it is much better tolerated than either in mice.There is no evidence that iMN013 is a DNA chain terminator like gemcitabine [8].iMN013 has been shown to be particularly effective against cancer cells expressing p53 WT [1].p53 is often inactivated in cancer because it can trigger cell growth arrest, apoptosis, autophagy or senescence, which are detrimental to cancer cells, and it impedes cell migration, metabolism and angiogenesis, which are favorable for cancer cell progression and metastasis [9].In addition to TP53, DNMTI upregulate a number of other tumor suppressor genes, including, connexin 32 [10], APAF-1 [11], sFRP2 [12], and HSPB7 in a p53 dependent manner [13].RCC is strongly associated with loss of VHL expression.Decitabine re-expressed VHL in tissue culture and in a mouse xenograft model [14].DNMTI have shown potential to affect the immune system through multiple mechanisms, including, upregulation of tumor antigen expression, increased MHC class I expression, and blunting of MDSC expansion [15].However, it should be noted that the therapeutic efficacy of the current generation DNMTI in solid tumors is not as evident as in hematologic malignancies [16,17].iMN013 also inhibits RNR, an enzyme responsible for catalyzing reactions that generate deoxynucleoside triphosphates for DNA synthesis, resulting in reduced deoxynucleotide concentrations.The reduction in the intracellular concentration of endogenous deoxycytidine nucleotides favors the incorporation of iMN013 triphosphate into DNA, a phenomenon described as selfpotentiation [1,18].The inhibition of RNR by iMN013 leads to enhanced activity against p53 WT tumors by inhibiting p53R2, whereas p53R2 is inducible by decitabine, a mechanism described as self-antagonism [1].High levels of RNR have been correlated with poor outcomes in a number of cancers, including breast cancer [19] and lung adenocarcinoma [20].Overexpression of the RRM2 small subunit of RNR creates an immunosuppressive tumor microenvironment.Infiltration of antitumor immune cells, such as CD8-T, was significantly lower in the RRM2-high group than in the RRM2-low group, whereas immunosuppressive Treg cells were more abundant in RRM2-high tumors [21].Gemcitabine has been shown to decrease Treg cells in patients with pancreatic cancer [22], while decitabine augments the inhibitory effect of Treg cells and restores immune tolerance in several inflammatory diseases [23].In two solid tumor models, decitabine had no effect or increased Treg cells.In a mouse melanoma model, guadecitabine, a prodrug of decitabine, showed no difference in tumor Treg cells between the treated and control groups [24], and decitabine increased circulating Treg cells in patients with hepatocellular carcinoma and hepatitis B virus [25].
As shown in Table 1, under redosing conditions, the IC 50 of iMN013 decreased from the micromolar to the nanomolar (nM) range, with three exceptions.4T1 and BxpC-3, which were resistant to IMN013, demonstrated sensitivity in the nM range, while MDA-MB-231 remained resistant.These data provided further rationale for testing iMN041 in animal models.iMN013/041 has demonstrated activity in mouse models of human leukemia and in breast , colon, lung, pancreatic and renal cancers.The in vitro efficacy of iMN013 in any given cell line has always been translated to its in vivo efficacy, Fig. 4 A, B Mice with SW1990 tumors were administered 0.8 mg SC in FS-19 qod or PBS (n per group).Mean tumor volume +/-SD at study initiation was 65 mm 3 +/-6.6.A Graph of SW1990 growth in iMN041 treated versus control animals.B Survival proportions in SW1990 implants, treated versus control.(42 vs. 30 days, p < 0.0001).C Mice with CFPAC-1 tumors were initially administered 1.2 mg iMN041 SC in FS-19 qod or PBS (n = 10 per group).Graph of CFPAC-1 growth in iMN041 treated versus vehicle control animals.Mean tumor volume +/-SD at study initiation was 61 mm 3 +/-5.4 suggesting that the treatment of other cancers with iMN041 is possible, such as melanoma or ovarian cancer.
In previous experiments, iMN013 released from iMN041 demonstrated improved pharmacokinetics and pharmacodynamics compared to the administration of iMN013 [2].Further improvements were necessary for filterability, injectability, pharmacokinetics and tolerability.To this end, experiments were conducted using rats.The FS-19 formulation showed improved pharmacokinetics for iMN013 released from iMN041 for all listed parameters and, most importantly, in AUC over FS-14.FS-19 has also demonstrated better tolerability (data not shown).FS-14 was used to formulate iMN041 in the earlier series of animal models (Renca, 786-O and Caki-1) and iMN041 formulated in FS-19 was administered to animals with Caki-1, CFPAC-1, SW1990, and DU4475 tumors.
Based on the observation of tumor inflammation and ulceration in mice implanted with NCI-H460 cells and treated with iMN041, we hypothesized that the treated nude mice demonstrated enhanced NK cell activity.The purpose of the Renca syngeneic model was to test this hypothesis and observe antitumor immune responses in immunocompetent animals.In this model, iMN041 was shown to (1) significantly increase granzyme B in NK and NKT cells, increasing NK and NKT tumor cell cytotoxicity [26], and (2) significantly increase CD8-T/ Treg and CD4-T/Treg, again suggesting its potential to increase the antitumor immune response [27].Trends in increased numbers of NK, NKT and CD8-T cells and decreased numbers of Treg cells were noted in iMN041 treated animals, consistent with these data.There are no reports in the literature on the increase in the function or proliferation of NKT cells after exposure to DNMTI.An elusive goal of immunotherapy has been to decrease Treg cells while sparing tumor-specific effector T-cells [28], which was the case in this experiment.(3) M-MDSC were significantly decreased with a trend towards a decrease in PMN-MDSC, suggesting a decrease in the likelihood of tumor immune escape [29].MDSC are generated during tumor progression and suppress antitumor functions of T and NK cells.Their enrichment is associated with poor prognosis of immunotherapy in cancer patients.MDSC also recruit other immunosuppressive cells such as Treg cells.Several therapeutic approaches have been investigated to target MDSC and to overcome their immunosuppression [30].
MAGE-A, (melanoma-associated antigen)-A, is a protein that is not expressed in most normal tissues, except the testis, but is activated in a number of different cancers, including head and neck [31], non-small cell lung cancer [32], melanoma [33], and ovarian [34,35].Overexpression of MAGE-A has been associated with a poor prognosis in several cancers [36].DNMTI have been demonstrated to increase MAGE-A levels in vitro in several tumors, including breast [37], pancreas [38] and colon [39].Because of this activity, attempts have been made to combine decitabine with dendritic cell vaccination [40] or T-cell therapy [41].A recent study was reported to be the first to reveal the killing of myelodysplastic syndrome cells by in vitro generated tumor-specific CTLs, after exposure to decitabine [42].To our knowledge, our study is the first report of a DNMTI decreasing the proportion of cells expressing MAGE-A in vivo, probably as a result of CD8-T cells targeting MAGE-A expressing tumor cells, whereas other DNMTI may decrease CD8-T cells mediated by Treg expansion [43].This hypothesis is supported by the fact that (1) 91.2% of Renca tumor cells expressed MAGE at baseline and (2) the proportion of decrease in MAGE-A positive cells in iMN041 treated tumors was 29.6% and that of live tumor cells was almost identical at 31.1%.
The xenograft mouse models demonstrated the efficacy of iMN041 with significant inhibition of tumor growth by iMN041 and further improvements with the introduction of the FS-19 formulation, leading to decreased vehicle toxicity and improved pharmacokinetics.Significant inhibition of tumor growth was demonstrated in models of ccRCC (786-O and Caki-1), pancreatic cancer (CFPAC-1 and SW1990) and TNBC (DU4475).Improvements in survival were observed in models with a sufficient number of events during the 42-day study period for all three tissue types.Notably, treatment of mice implanted with DU4475 was particularly difficult because the treated and control mice rapidly started losing weight, making it difficult to determine whether the weight loss was due to the course of the disease or the study drug.This was the rationale for administering a dose of 0.5 mg as opposed to more typically 0.8 mg in animals with other tumor cell lines.
RCC was selected for treatment with iMN041 because in the NCI60 cell panel, five of seven cell lines were sensitive to iMN013 in a conventional assay, with an IC 50 of less than 10 µM.1 Additionally, RCC is classified as an immunogenic tumor, as is melanoma, because of the occurrence of spontaneous regression, response to immunotherapy and high level of T-cell infiltration [44].Immune checkpoint inhibitors have become the firstline treatment for metastatic RCC [45].However, highdose interleukin-2 (IL-2) is the only systemic therapy associated with durable complete remissions, although only in approximately 5% of patients [46].IL-2 activates lymphokine activated killer (LAK) cells leading to lysis of tumor cells.LAK cells are mainly composed of NK cells and T-cells [47].However, the administration of high-dose IL-2 requires hospital admission because patients can experience severe side effects from the treatment [48].In our study, one mouse implanted with 786-O cells and treated with iMN041 was cured, with no tumor found on histopathology.It is interesting to note that decitabine has been reported to have no activity in a mouse xenograft of 786-O (VHL-defective) [14].As both iMN013 and decitabine have been reported to cause p53 independent apoptosis at submicromolar doses,1 these results suggest that the difference in activity against 786-O cells may be due to the antitumor immune response induced by iMN041.Treatment of Caki-1 implants with a higher dose of iMN041 that could be administered with FS-19, and the improved pharmacokinetics, translated into improved outcomes over iMN014 formulated in FS-14.
Because of their low mortality, Caki-1 inoculated mice were selected for a substudy to quantitate the amount of necrosis in the tumors.Necrosis was of interest because a study with mice inoculated with NCI-H460 had demonstrated on histology a marked inflammatory response, necrosis and in some cases ulceration [2].A significant decrease in necrosis was observed in the treated vs. the control group.Tumor necrosis is associated with rapid tumor growth and is a predictor of poor prognosis in cancer [49,50].
Pancreatic cancer has a very poor prognosis, and gemcitabine, an RNRI, remains a mainstay of treatment [51].The main cure for pancreatic cancer is surgical resection and all other treatment modalities have low survival rates.Many clinical trials have assessed the efficacy of immunotherapeutic strategies, however, none has shown dramatic results [52].In our study, animals with pancreatic cancer demonstrated a good response to treatment, particularly animals implanted with CFPAC-1, when compared to a report in the literature on treatment with gemcitabine in mice with the identical mean starting tumor volume [53].
Breast cancer is categorized into three major subtypes based on the presence or absence of estrogen receptors (ER), progesterone receptors (PR), and human epidermal growth factor 2 (ERBB2, formerly HER2).TNBC lacks all three standard molecular markers (15% of patients) [54].Most new treatment options for metastatic breast cancer recently approved by the Food and Drug Administration (FDA) are only effective for ER/PR (+) or ERBB2 (+) metastatic tumors, and the subset of patients with metastatic TNBC is treated with chemotherapy alone.Hence, there is a need for novel therapies and immunotherapy may be a viable treatment strategy [55].DU4475 is a model of aggressive TNBC and there are few reports in the literature of successful treatment of xenografts [56,57].Despite issues related to optimal dosing, iMN041 significantly inhibited tumor growth and improved survival.
DNA methyltransferase inhibitors have suffered two main shortcomings that limit their therapeutic use: poor pharmacokinetics and low efficacy in solid tumors [58].iMN013 is comprised of the sugar of decitabine and the base of gemcitabine, and demonstrates substantially more activity in solid tumors than the current DNMTI, while being less toxic than either [1].iMN041 has demonstrated promise as an anticancer immunotherapeutic.The derepression of tumor suppressor genes in cancer cells, such as p53, and RNR inhibition, lead to the enhancement of innate and acquired immunity, while decreasing the likelihood of tumor immune escape.It is likely that even better results would have been achieved in tumors in immunocompetent hosts, as nude mice have a vestigial thymus and are incapable of producing mature T-cells [59].iMN041 has been shown to be effective against decitabine-resistant tumors.One target of iMN041 has been demonstrated to be tumor cells expressing MAGE-A.Although many therapies are under development to target one arm of the antitumor immune response, such as inhibitors of MDSC or Treg cells, iMN013/041 simultaneously affects multiple arms of the immune system.This should simplify patient treatment, minimize the likelihood of tumor escape and improve patient outcomes.

Fig. 1
Fig. 1 Analysis of live cells in mouse Renca tumors.Comparisons of tumors treated with two doses of 1 mg iMN041 SC qod followed by a 48 h observation period or vehicle control (n = 4/group), where * signifies differences where p < 0.05 and ** p < 0.01.A Gating strategy for granzyme B in NK cells.B Gating strategy for granzyme B in NKT cells.C The percentage of CD45+ cells positive for granzyme B. D Mean fluorescence intensity (MFI) of CD45+ cells for granzyme B. E Gating strategy for CD4-T and CD8-T cells.F Comparison of CD8-T to Treg percentage cells ratio and CD4-T to Treg percentage cells ratio.G, I Comparison of live CD45+ cells and live tumor cells, respectively.H, J Comparison of subsets of CD45+ cells.K Gating strategy for detection of MAGE-A expressed by live tumor cells.L Positive rate of MAGE-A in tumor cells (See figure on next page.)

Table 1
IC50 of iMN013 following a single dose of iMN013 and 72 hour incubation, and following redosing every 12 hours x 6 doses

Table 2
Pharmacokinetics of iMN013 released from iMN041 formulated in FS-14 or FS-19.Where: Cmax is the maximum concentration, Tmax is the time associated with Cmax, T1/2 is the half-life, MRT is the mean residence time and AUC is the area under the curve