Novel anti-cancer drug COTI-2 synergizes with therapeutic agents and does not induce resistance or exhibit cross-resistance in human cancer cell lines

Emerging drug-resistance and drug-associated toxicities are two major factors limiting successful cancer therapy. Combinations of chemotherapeutic drugs have been used in the clinic to improve patient outcome. However, cancer cells can acquire resistance to drugs, alone or in combination. Resistant tumors can also exhibit cross-resistance to other chemotherapeutic agents, resulting in sub-optimal treatment and/or treatment failure. Therefore, developing novel oncology drugs that induce no or little acquired resistance and with a favorable safety profile is essential. We show here that combining COTI-2, a novel clinical stage agent, with multiple chemotherapeutic and targeted agents enhances the activity of these drugs in vitro and in vivo. Importantly, no overt toxicity was observed in the combination treatment groups in vivo. Furthermore, unlike the tested chemotherapeutic drugs, cancer cells did not develop resistance to COTI-2. Finally, some chemo-resistant tumor cell lines only showed mild cross-resistance to COTI-2 while most remained sensitive to it.


Introduction
Emergence of drug-resistant clones and treatment-associated toxicities are two major barriers to successful cancer treatment [1].Drug resistance can result in rapid disease progression either during or shortly after completion of treatment.Cytotoxic anticancer drugs designed to inhibit growth of fast-dividing tumor cells are often not target-specific and are limited by their off-target toxicities.Precision medicine drugs are designed to be target-specific and to induce fewer undesirable side effects than conventional chemotherapy.Nevertheless, cancer cells often develop resistance to targeted agents [2].Combining two or more agents with unrelated required.KYS and WRD played no role in the study design, data collection, or decision to publish.However, KYS and WRD reviewed the draft manuscript generated solely by SMV (a research associate supervised solely by JK) and JK, and made suggestions to JK with respect to data analysis and text to be included in the final manuscript.JK accepted, accepted with modification, or rejected those suggestions at his sole and exclusive discretion.JK made those decisions purely on the basis of their verifiability, accuracy, conservative interpretation of results, and suitability for publication in this journal: there was no pressure from those authors or Critical Outcome Technologies, Inc., implicit or explicit, to include/exclude data, analysis, or interpretation of data.
Competing interests: JK and SMV have no competing interests with respect to patents, products in development, marketed products, or other matters pertaining to Critical Outcome Technologies Inc. (COTI) (now known as Cotinga Pharmaceuticals, Inc.), its products, or its products in development.JK is the recipient of funding from COTI to conduct the studies reported in this manuscript, without restrictions of any kind on freedom to publish results (other than reasonable advance notice to COTI on the nature of those results).JK received COTI-2 (the compound assessed and reported on in this manuscript) freeof-charge from COTI.Neither JK nor SMV are employed by COTI or Cotinga Pharmaceuticals, Inc. in any capacity whatsoever.Neither JK nor SMV receive any payment (in cash or in-kind) from COTI or Cotinga Pharmaceuticals, Inc. for consulting, nor have they received payments for consulting in the past.KYS is a paid employee of COTI (now known as Cotinga Pharmaceuticals, Inc.) and WRD is a former paid employee of COTI.This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Proliferation assay
Tumor cell proliferation after drug treatment was measured as described previously [6].Briefly, cancer cells were cultured overnight then allowed to proliferate in the presence of treatment drug then trypsinized and counted using a Beckman Coulter Z1 Particle Counter (Beckman, Mississauga, Ontario).AlamarBlue (ThermoFisher Scientific, Waltham, MA) was added to the treated cells after 4-7 days of drug exposure (approximately 4 doublings of untreated control cells) and cellular metabolic activity measured using a Wallac Victor2 multi-label counter (PerkinElmer, Gaithersburg, MD).
To assess additive, greater-than-additive (synergistic), or less-than-additive (antagonistic) effects in response to combination treatments, cells were treated with a concentration of COTI-2 that reduced proliferation by 25% in combination with increasing concentrations of the non-COTI-2 drug.Cell proliferation was calculated as a fraction of proliferation of cells treated with COTI-2 alone [8].

Acquired resistance studies
Cancer cells were exposed to 4 rounds of selection that consisted of the addition of test agent to cells in medium plus 10% FBS for 4 days such that overall cell proliferation, assessed by ala-marBlue and/or cell counting, was reduced by 50% (IC 50 dose).Subsequently, the drug-containing medium was replaced with fresh complete medium without drug followed by a recovery period of 5 days.Naive tumor cells were exposed to the pre-determined IC 50 dose of each test agent.The surviving 50% of cells from the initial IC 50 test were harvested and cultured for 5 days, after which the new generation of cells was re-treated with the same agent and a new, higher IC 50 value established (indicating increased drug resistance).The IC 50 used to treat the cells of each subsequent generation was the IC 50 measured after the immediately preceding round of selection.The procedure was repeated for 5 generations.Emerging resistance was identified as increasing IC 50 values in successive generations.

Cross-resistance studies
Human tumor cell lines with established resistance to chemotherapy drugs were evaluated for cross-resistance to COTI-2.Cell lines resistant to the various agents were selected and maintained as described previously [9].The IC 50 values were determined by measuring the proliferation of tumor cell growth.The alamarBlue assay was used to measure cellular metabolic activity after 4-7 days of drug exposure.The IC 50 values were derived by interpolation of plotted data (mean values from 3 independent experiments ±SEM).

In vivo xenograft studies
Human AN3-CA endometrial tumor cells (1 x 10 7 ) were injected subcutaneously (SC) into the right flanks of 5-week-old female athymic nude mice, which consisted of 4 groups of 10 mice each.Body and tumor weights, measured as described previously [10], were recorded on the day of pair-matching and twice-weekly thereafter.COTI-2 (25 mg/kg) and vehicle control were administered intravenously (i.v.) 3 times weekly on alternate days until study end.Paclitaxel (5 mg/kg) was dosed daily for 5 days consecutively.The combination group received both paclitaxel (5 mg/kg) and COTI-2 (25 mg/kg) in a fashion identical to single agent treatment groups.
Human PANC-1 pancreatic tumor xenografts were established by injecting 2 x 10 6 tumor cells per injection site into each flank of female NCr-nu mice (Taconic, Germantown, NY) then randomized into 6 groups of 12 mice each consisting of COTI-2 (125 mg/kg), gemcitabine (100 mg/kg), COTI-2 (125 mg/kg) plus gemcitabine (100 mg/kg), abraxane (15 mg/kg), COTI-2 (125 mg/kg) plus abraxane (15 mg/kg), or vehicle alone.COTI-2 was administered by oral gavage/per os (p.o.) with a treatment schedule of 5 days on and 2 days off per week.Gemcitabine was delivered intraperitoneally (i.p.) every second day for a total of 6 injections.Abraxane was administered i.v., once per day for 5 consecutive days.Dosing schedules for all treatment arms were identical except that COTI-2 treatment started one day after the first treatment with gemcitabine or abraxane.Tumor volumes, determined as described previously [6], were recorded multiple times during the course of the study.
All animal studies were approved by Western University's Animal Use Subcommittee (approved protocol number 2008-069).Isoflurane was used for anesthesia and CO 2 was used to euthanize the animals according to the institutional guidelines.Tumor growth inhibition (TGI) for both aforementioned animal studies was calculated according to the following formula:

Statistical analysis
Student's t test (2-tailed) was used to determine differences between two means.One-way ANOVA was used to assess differences among multiple means.A p value of 0.05 was selected a priori to indicate significant differences.

Combining COTI-2 with paclitaxel and cisplatin enhances their activity in small cell lung cancer cells
Paclitaxel and cisplatin are commonly used as first-line chemotherapies in many cancers [11,12], however, both exhibit dose-limiting toxicities and resistance [13,14].The combinations of COTI-2 plus paclitaxel as well as COTI-2 plus cisplatin enhanced the cytotoxic activity of both paclitaxel and cisplatin in SHP-77 and DMS-114 small cell lung cancer (SCLC) cells (Fig 1A -1D).These data suggest that COTI-2 can be used in combination with these first-line agents.We have previously shown that COTI-2 induced apoptosis in tumor cells in vitro [6].However, further studies are required to demonstrate a similar mechanism of action in vivo.

COTI-2 increases the cytotoxic activity of carboplatin but not vinorelbine or gemcitabine
Similar to the cisplatin combination, COTI-2 in combination with carboplatin exhibited a synergistic effect in DMS-114 and SHP-77 SCLC cells (Fig 2A and 2B).COTI-2 in combination with carboplatin was also significantly more effective than carboplatin or COTI-2 treatment alone in inhibiting OVCAR-

COTI-2 induces significant tumor growth inhibition in combination with gemcitabine and abraxane in the PANC-1 pancreatic tumor model
Gemcitabine and abraxane, which are mainly used for the treatment of pancreatic cancer [16], were evaluated in combination with COTI-2 in a PANC-1 human pancreatic tumor xenograft.
Monotherapy with either COTI-2 or gemcitabine delayed growth of PANC-1 tumors in mice compared to vehicle control (Fig 2E and 2F).The combination of COTI-2 and gemcitabine, however, was more effective than either agent alone at inhibiting tumor growth (Fig 2E).In fact, the combination treatment induced significant tumor growth inhibition of 71.4% and 83.4% on day 85 relative to treatments with gemcitabine and COTI-2, respectively.The COTI-2 and abraxane combination reduced tumor volumes by 50-85% of those achieved by treatment with abraxane alone on days 28-48 (Fig 2F).However, the potent anti-tumor effect of abraxane masked, to some degree, the potential combination effect of abraxane and COTI-2.

COTI-2 moderately increases the inhibitory effects of temsirolimus and rapamycin
Our preliminary mechanistic studies suggest that COTI-2 is a negative modulator of the PI3K/ AKT/mTOR pathway [6,17].Therefore, we treated U87-MG glioblastoma cells with various concentrations of two mTOR inhibitors, temsirolimus and rapamycin, in combination with COTI-2.All lower (less than 60 nM) and some higher (up to 100 nM) concentrations of COTI-2 in combination with temsirolimus showed a synergistic effect (Fig 3A , panels [i] to [viii]).Synergism was less apparent at some higher concentrations of COTI-2 and temsirolimus.COTI-2 plus rapamycin effects were moderately synergistic for some of the lower concentrations of rapamycin (less than 5 μM) (Fig 3B).These data suggest that the optimal dose of each agent must be determined for any combination.

Combination of COTI-2 with cetuximab and erlotinib synergistically enhances the activity of these targeted agents
COTI-2 alone is more effective than cetuximab and erlotinib, two epidermal growth factor receptor (EGFR) targeting agents, at inhibiting the proliferation of multiple human colorectal

Cancer cells develop acquired resistance to paclitaxel and cisplatin but remain sensitive to COTI-2
Treatment resistance remains a major problem in oncology.We therefore evaluated whether COTI-2 induces resistance in cancer cells and compared it to paclitaxel and cisplatin.DMS-153 and SHP-77 SCLC and A549 non-small cell lung cancer (NSCLC) cell lines were grown for 5 successive generations during exposure to COTI-2, cisplatin, or paclitaxel.While tumor cells showed higher levels of acquired resistance to paclitaxel and cisplatin after each round of treatment, they remained sensitive to COTI-2 across multiple generations (Fig 5).These data suggest that unlike paclitaxel and cisplatin, COTI-2 did not induce acquired resistance in the cell lines examined.

Chemo-resistant cancer cell lines show no or little cross-resistance to COTI-2
Often cancer cells that develop acquired resistance to one chemotherapeutic agent also exhibit cross-resistance to other agents [18].Although COTI-2 did not induce acquired resistance in human cancer cell lines after 4 rounds of selection, we determined whether cancer cells that acquired resistance to paclitaxel, cisplatin, 5FUdR, and vincristine would exhibit cross-resistance to COTI-2.The tested cell lines included cervical carcinoma HeLa cells resistant to 5-FUdR, HNSCC HN-5a cells resistant to vincristine, NSCLC A549 cells resistant to paclitaxel and cisplatin, and SCLC DMS-153 and SHP-77 cells resistant to paclitaxel and cisplatin.The parental cell line from which resistant lines were generated were used as non-resistant comparators.Paclitaxel-resistant A549 cells were more sensitive to COTI-2 than the parental cells (Fig 6A ).Paclitaxel-resistant DMS-153 cells did not exhibit cross-resistance to COTI-2.Paclitaxelresistant SHP-77 cells, however, did show minimal cross-resistance to COTI-2 but remained more sensitive to COTI-2 than paclitaxel.Cross-resistance to COTI-2 was evident to a minor degree in cisplatin-resistant A549 and SHP-77 cells but to a much lesser extent than resistance to cisplatin (Fig 6B).Cisplatin-resistant DMS-153 cells remained sensitive to COTI-2.The 5-FUdR-resistant HeLa cells were significantly more sensitive to COTI-2 (Fig 6C).Vincristine-resistant HN-5a cells exhibited cross-resistance to COTI-2 but to a much lesser degree than their resistance to vincristine (Fig 6D).Collectively, these data suggest that COTI-2 may be useful in salvage treatment after first-line treatment failure with common chemotherapy drugs.It is formally possible that lack of acquired-or cross-resistance to COTI-2 is due to COTI-2-mediated depletion of glutathione (GSH).Increased GSH and GGT levels in cancer cells and increased GSH activity linked to multi-drug resistance proteins (MRP) are associated with development of resistance to a wide variety of chemotherapeutic agents including cisplatin, 5FUdR, and paclitaxel [19,20].N-acetyl-L-cysteine (NAC) is a precursor in the glutathione synthesis pathway in mammalian cells and organs, and supplementation of human tumor cells with NAC leads to increased GSH and resistance to generators of toxic free radicals [21].On the other hand, buthionine sulfoximine (BSO) reduces cellular GSH and sensitizes cells to free radicals [21].We assessed the capacity of NAC and BSO treatment to alter the cytotoxicity of COTI-2 in DMS-53 cells.Addition of NAC or BSO did not affect the cytotoxic effect of COTI-2 (S4 Fig) .Therefore, the potential effect of COTI-2 on GSH levels cannot explain the lack of acquired or cross-resistance to COTI-2.https://doi.org/10.1371/journal.pone.0191766.g004

Discussion
We have previously shown that COTI-2, a third generation thiosemicarbazone, is active against a wide variety of human cancer cell lines with superior cytotoxic and anti-proliferative activity compared to multiple conventional chemotherapeutic and targeted agents [6].The aim of this study was to evaluate the effect of COTI-2 in combination with standard therapeutic agents with different modes of action and to assess whether cancer cells develop acquiredand cross-resistance to COTI-2.COTI-2 effects in combination with the two most clinically-used classes of tubulin-binding drugs, vinorelbine and paclitaxel, were evaluated.Both classes disrupt mitosis by interfering with microtubule assembly (the former destabilizing and the latter stabilizing microtubules) [22].COTI-2 enhanced the cytotoxic activity of paclitaxel against SCLC cells in a synergistic manner (Fig 1A and 1C), suggesting the therapeutic efficacy of this combination.This data was further confirmed in vivo in an AN3-CA endometrial tumor model where the combination of COTI-2 and paclitaxel was not only synergistic but also demonstrated little toxicity (Fig 1E and S1 Fig).This data is promising since COTI-2 is currently in a phase I trial of gynaecologic malignancies and HNSCC (NCT02433626) and paclitaxel is commonly used to treat gynaecological malignancies [11,12].Unlike paclitaxel, vinorelbine was not synergistic with COTI-2 in the SCLC cells (Fig 2C and 2D).It is unclear why the two tubulin-binding drugs have a different effect when combined with COTI-2.The differences are likely due to the other mechanisms of paclitaxel and vinorelbine.
Cisplatin and its less toxic analogue carboplatin, both used in the treatment of various solid tumors including ovarian cancer [11,12,23], are intercalating agents that cause DNA intrastrand and inter-strand crosslinks [24].Similar to paclitaxel, both cisplatin and carboplatin exhibited synergistic activity when combined with COTI-2 in SCLC cell lines (Figs 1C and 1D and 2A and 2B).The nature of interaction between these alkylating agents and COTI-2 appears to be a facilitating action since both cisplatin and carboplatin induce DNA damage and COTI-2 acts on mutant p53 [17] and induces apoptosis in response to DNA damage [6].
Gemcitabine, an antimetabolite or nucleoside analogue that inhibits DNA synthesis, and abraxane, which is paclitaxel protein-bound particles, are both used to treat pancreatic cancer [25,26].Combining COTI-2 and gemcitabine was not synergistic in SCLC cell lines (S3 Fig) .The lack of synergy between gemcitabine and COTI-2 appears to be cell-specific because the combination of COTI-2 and gemcitabine was synergistic in PANC-1 xenografts (Fig 2E).COTI-2 plus abraxane significantly delayed PANC-1 xenograft growth in mice (Fig 2F).This combination showed early significant response to treatment compared to abraxane alone.This is important because early response to treatment correlates with improved survival in patients [27,28].We should note that we do not yet know whether the combination of COTI-2 with a cytotoxic agent in vivo results in improved tumor control due to increased apoptosis of tumor cells, increased cytostasis of tumor cells, a combination of the two, or other effects reducing overall tumor volume (for example, altered inflammatory activity, stromal cell viability/proliferation, angiogenesis, and the like).Future studies are warranted to clarify the COTI-2 mechanism of action in vivo.In addition to chemotherapeutic agents, COTI-2 was evaluated in combination with the targeted-therapy agents, cetuximab, erlotinib, temsirolimus, and rapamycin/sirolimus.Combining COTI-2 with these agents in vitro also showed superior anti-proliferative effects compared to monotherapy.Previously, we demonstrated that COTI-2 was significantly more effective than erlotinib and cetuximab against human colorectal cancer cell lines in vitro [6].When combined with these EGFR-targeting agents, COTI-2 was more effective at inhibiting tumor cell proliferation (Fig 4).Interestingly, COTI-2 was efficacious regardless of the EGFR and KRAS mutational status of these cell lines; the HCT-15 cell line carries an EGFR mutation conferring resistance to erlotinib whereas the COLO-205 and SW-620 cell lines carry a KRAS mutation conferring resistance to cetuximab [29].Since the aforementioned mutations allow the activation of the RAS/MAPK pathway, we propose that the mechanism of action of COTI-2 does not appear to involve this pathway.In fact, ongoing mechanistic studies in our laboratory suggest that COTI-2 acts on mutant p53 and negatively modulates the PI3K/AKT/mTOR pathway [17].
Emergence of resistance is an ever-increasing problem in oncology and the use of combination therapies is rationalized as a means to potentially decrease resistance in cancer cells [1].Furthermore, evaluating cross-resistance patterns is important since intrinsic cross-resistance may hamper the development of combination therapies.Since acquired-and cross-resistance to paclitaxel and platinum agents are common [30], COTI-2 was evaluated for cross-resistance to these agents.COTI-2 exhibited no or little cross-resistance to cisplatin-and paclitaxel-resistant cell lines in a cell-line specific manner (Fig 6A and 6B).In fact, collateral sensitivity to COTI-2 was observed in the A549 paclitaxel-resistant cell line suggesting, importantly, that resistance to paclitaxel sensitized the cells to COTI-2.Furthermore, unlike paclitaxel and cisplatin, COTI-2 did not induce acquired resistance in cancer cell lines following 4 rounds of selection (Fig 5).This suggests that COTI-2 can be valuable in second-or third-line treatment of chemotherapy-refractory tumors and that its mechanism of action is distinct from that of paclitaxel and cisplatin.
COTI-2 was also evaluated for cross-resistance to vincristine-and 5-FUdR-resistant cell lines.Vincristine-resistant cells were resistant to COTI-2 although to a much lesser degree than vincristine (Fig 6D ) whereas COTI-2 was effective against cells resistant to 5-FUdR (Fig 6C ).Similar to the paclitaxel-resistant A549 cells, the 5-FUdR-resistant HeLa cells also demonstrated collateral sensitivity to COTI-2.It is unclear why cross-resistance to COTI-2, although to a minor degree, develops to certain DNA-damaging agents but not to others.Further preclinical and clinical studies are warranted.The lack of acquired-or cross-resistance to COTI-2 was not related to COTI-2-mediated depletion of GSH in DMS-53 cells.However, there is always the possibility that other cell lines react differently to treatment with NAC and BSO.Therefore, future studies with a broad range of cell lines treated with NAC and BSO (in vitro and in vivo) and search for other underlying molecular mechanisms are warranted to shed light on this phenomenon.
In conclusion, we have shown that combining COTI-2 with commonly used therapeutic agents improves their efficacy against human cancer cell lines in vitro and in vivo.Importantly, the enhanced treatment effects appear to be most noticeable when COTI-2 is combined with taxanes and platinums.The combination treatment regimens tested did not result in any overt signs of toxicity in vivo.Furthermore, cancer cells do not develop resistance to COTI-2 after repeated rounds of drug selection unlike agents such as paclitaxel and cisplatin.Finally, cancer cells resistant to multiple chemotherapeutic drugs showed little or no cross-resistance to COTI-2.
paclitaxel in the AN3-CA endometrial tumor model COTI-2 was further evaluated in combination with paclitaxel in a human endometrial tumor model since paclitaxel is commonly used in the management of endometrial cancer[15].Paclitaxel alone delayed the growth of human AN3-CA endometrial xenografts with a mean TGI of 74.1% on day 20 relative to the control group (Fig1E).While COTI-2 treatment alone did not completely inhibit the growth of AN3-CA xenografts, the combination of paclitaxel and COTI-2 was more effective (TGI of 98.5% on day 20 relative to control group) than paclitaxel alone.In fact on day 30 (study end), the combination-treated group induced a significant TGI of 67.5% relative to the paclitaxel-treated group (Fig1E).Furthermore, 4 of the 10 combination-treated animals exhibited complete tumor shrinkage by day 27.No significant weight difference was observed in mice treated with COTI-2 or paclitaxel compared to the control animals.Mice in the combination treatment arm initially lost 10% of their body weight, which

Fig 1 .
Fig 1. COTI-2 enhances the cytotoxic activity of paclitaxel and cisplatin.DMS-114 (A and C) and SHP-77 cells (B and D) were cultured overnight then exposed to the indicated doses of paclitaxel and cisplatin plus or minus a pre-determined dose of COTI-2 (IC 25 ) for 4 days before cell viability was determined.The asterix ( Ã ) indicates a significant greater-thanadditive effect in the combination therapy compared to single agent alone, p<0.05,Student's t-test.Data are the average mean of 3 independent experiments ± SEM. (E) AN3-CA human endometrial cells (1 x 10 7 ) were injected into the right flanks of athymic nude mice (n = 10 mice per group).Xenografts were grown to an average volume of 170 mm 3 before animals received treatment i.v.Vehicle control and COTI-2 (25 mg/kg) were administered 3 times a week on alternate days until study end.The schedule for paclitaxel was daily for 5 days (5 mg/kg).In the combination arm, animals received COTI-2 (25 mg/kg) 3 times a week for the entire study and 5 injections of paclitaxel (5 mg/kg).Ã Significantly different from the paclitaxel alone treatment group, Student's t-test, p<0.05.Error bars represent SEM.https://doi.org/10.1371/journal.pone.0191766.g001

Fig 2 .Fig 3 .
Fig 2. Only some chemotherapeutic drugs with similar molecular targets show enhanced activity when combined with COTI-2.DMS-114 (A and C) and SHP-77 (B and D) SCLC cells were treated with various concentrations of carboplatin (A and B) or vincristine (C and D) in combination with or without an IC 25 concentration of COTI-2 for 4 days before cell viability was determined.The asterix ( Ã ) indicates a significant greater-than-additive effect in the combination therapy compared to

Fig 4 .
Fig 4. Combining COTI-2 with cetuximab and erlotinib synergistically enhances the efficacy of these drugs against human colorectal cancer cells.Human colorectal cancer cell lines HCT-15 (A), SW-620 (B), and COLO-205 (C) were treated with varying concentrations of COTI-2, cetuximab, erlotinib, or a combination of COTI-2 and either EGFR inhibitor.Tumor cells were allowed to proliferate for 4 days in the presence of drug(s) before cell viability was determined.All data points indicate the mean of 5 independent measures of viability ± SEM.Ã Significant difference from cells treated with COTI-2 alone using a Student's t-test (p<0.05).

Fig 5 .Fig 6 .
Fig 5. Cancer cells do not develop acquired resistance to COTI-2 unlike treatment with paclitaxel and cisplatin.A549 NSCLC (A), DMS-153 SCLC (B) and SHP-77 SCLC (C) cells were cultured in IC 50 concentrations of COTI-2, paclitaxel, or cisplatin for 4 rounds of treatment (5 generations of cells including the parental cells).The surviving 50% of cells from the initial IC 50 tested were harvested and cultured for 5 days, after which time this new generation of cells was re-treated with the same agent and a new IC 50 value was established.Emerging resistance was identified by increasing IC 50 values in successive generations.Significant differences were assessed by Student's t-test (p<0.05).Ã Significantly different from parental cells treated with the mentioned drug.Data points indicate the mean from 3 independent experiments ± SEM. https://doi.org/10.1371/journal.pone.0191766.g005 3 xenograft growth (S2 Fig).Moreover, combining COTI-2 with carboplatin at lower doses was safe for the animals while any doses of carboplatin at higher than 25 mg/kg in combination with COTI-2 or as single agent caused unacceptable toxicity in animals (S1 Table).Combining COTI-2 with vinorelbine in treatment of DMS-114 and SHP-77 SCLC cells in vitro did not enhance the activity of this drug (Fig 2C and 2D) nor did COTI-2 enhance the activity of gemcitabine (S3 Fig).We note that, while combining COTI-2 with vinorelbine (Fig 2C and 2D) or gemcitabine (S3 Fig) did not enhance the activity of those agents in vitro, COTI-2 did not antagonize the effect of these drugs.