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Heterogeneous Binding and Central Nervous System Distribution of the Multitargeted Kinase Inhibitor Ponatinib Restrict Orthotopic Efficacy in a Patient-Derived Xenograft Model of Glioblastoma

Laramy, Janice K. ; Kim, Minjee ; Gupta, Shiv K. ; [et al.]

American Society for Pharmacology & Experimental Therapeutics (ASPET) ; 2017

In: Journal of Pharmacology and Experimental Therapeutics Vol. 363, No. 2 ( 2017-11), p. 136-147

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In: Journal of Pharmacology and Experimental Therapeutics, American Society for Pharmacology & Experimental Therapeutics (ASPET), Vol. 363, No. 2 ( 2017-11), p. 136-147

Type of Medium: Online Resource

ISSN: 0022-3565 , 1521-0103

URL: Article

DOI: 10.1124/jpet.117.243477

Language: English

Publisher: American Society for Pharmacology & Experimental Therapeutics (ASPET)

Publication Date: 2017

detail.hit.zdb_id: 1475023-5

SSG: 15,3

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The Efficacy of the Wee1 Inhibitor MK-1775 Combined with Temozolomide Is Limited by Heterogeneous Distribution across the Blood–Brain Barrier in Glioblastoma

Pokorny, Jenny L. ; Calligaris, David ; Gupta, Shiv K. ; [et al.]

American Association for Cancer Research (AACR) ; 2015

In: Clinical Cancer Research Vol. 21, No. 8 ( 2015-04-15), p. 1916-1924

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In: Clinical Cancer Research, American Association for Cancer Research (AACR), Vol. 21, No. 8 ( 2015-04-15), p. 1916-1924

Abstract: Purpose: Wee1 regulates key DNA damage checkpoints, and in this study, the efficacy of the Wee1 inhibitor MK-1775 was evaluated in glioblastoma multiforme (GBM) xenograft models alone and in combination with radiation and/or temozolomide. Experimental Design: In vitro MK-1775 efficacy alone and in combination with temozolomide, and the impact on DNA damage, was analyzed by Western blotting and γH2AX foci formation. In vivo efficacy was evaluated in orthotopic and heterotopic xenografts. Drug distribution was assessed by conventional mass spectrometry (MS) and matrix-assisted laser desorption/ionization (MALDI)-MS imaging. Results: GBM22 (IC50 = 68 nmol/L) was significantly more sensitive to MK-1775 compared with five other GBM xenograft lines, including GBM6 (IC50 & gt;300 nmol/L), and this was associated with a significant difference in pan-nuclear γH2AX staining between treated GBM22 (81% cells positive) and GBM6 (20% cells positive) cells. However, there was no sensitizing effect of MK-1775 when combined with temozolomide in vitro. In an orthotopic GBM22 model, MK-1775 was ineffective when combined with temozolomide, whereas in a flank model of GBM22, MK-1775 exhibited both single-agent and combinatorial activity with temozolomide. Consistent with limited drug delivery into orthotopic tumors, the normal brain to whole blood ratio following a single MK-1775 dose was 5%, and MALDI-MS imaging demonstrated heterogeneous and markedly lower MK-1775 distribution in orthotopic as compared with heterotopic GBM22 tumors. Conclusions: Limited distribution to brain tumors may limit the efficacy of MK-1775 in GBM. Clin Cancer Res; 21(8); 1916–24. ©2015 AACR.

Type of Medium: Online Resource

ISSN: 1078-0432 , 1557-3265

URL: Article

DOI: 10.1158/1078-0432.CCR-14-2588

RVK:

XA 36791

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2015

detail.hit.zdb_id: 1225457-5

detail.hit.zdb_id: 2036787-9

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Restricted Delivery of Talazoparib Across the Blood–Brain Barrier Limits the Sensitizing Effects of PARP Inhibition on Temozolomide Therapy in Glioblastoma

Kizilbash, Sani H. ; Gupta, Shiv K. ; Chang, Kenneth ; [et al.]

American Association for Cancer Research (AACR) ; 2017

In: Molecular Cancer Therapeutics Vol. 16, No. 12 ( 2017-12-01), p. 2735-2746

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In: Molecular Cancer Therapeutics, American Association for Cancer Research (AACR), Vol. 16, No. 12 ( 2017-12-01), p. 2735-2746

Abstract: Poly ADP-ribose polymerase (PARP) inhibitors, including talazoparib, potentiate temozolomide efficacy in multiple tumor types; however, talazoparib-mediated sensitization has not been evaluated in orthotopic glioblastoma (GBM) models. This study evaluates talazoparib ± temozolomide in clinically relevant GBM models. Talazoparib at 1–3 nmol/L sensitized T98G, U251, and GBM12 cells to temozolomide, and enhanced DNA damage signaling and G2–M arrest in vitro. In vivo cyclical therapy with talazoparib (0.15 mg/kg twice daily) combined with low-dose temozolomide (5 mg/kg daily) was well tolerated. This talazoparib/temozolomide regimen prolonged tumor stasis more than temozolomide alone in heterotopic GBM12 xenografts [median time to endpoint: 76 days versus 50 days temozolomide (P = 0.005), 11 days placebo (P & lt; 0.001)]. However, talazoparib/temozolomide did not accentuate survival beyond that of temozolomide alone in corresponding orthotopic xenografts [median survival 37 vs. 30 days with temozolomide (P = 0.93), 14 days with placebo, P & lt; 0.001]. Average brain and plasma talazoparib concentrations at 2 hours after a single dose (0.15 mg/kg) were 0.49 ± 0.07 ng/g and 25.5±4.1 ng/mL, respectively. The brain/plasma distribution of talazoparib in Bcrp−/− versus wild-type (WT) mice did not differ, whereas the brain/plasma ratio in Mdr1a/b−/− mice was higher than WT mice (0.23 vs. 0.02, P & lt; 0.001). Consistent with the in vivo brain distribution, overexpression of MDR1 decreased talazoparib accumulation in MDCKII cells. These results indicate that talazoparib has significant MDR1 efflux liability that may restrict delivery across the blood–brain barrier, and this may explain the loss of talazoparib-mediated temozolomide sensitization in orthotopic versus heterotopic GBM xenografts. Mol Cancer Ther; 16(12); 2735–46. ©2017 AACR.

Type of Medium: Online Resource

ISSN: 1535-7163 , 1538-8514

URL: Article

DOI: 10.1158/1535-7163.MCT-17-0365

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2017

detail.hit.zdb_id: 2062135-8

SSG: 12

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Delineation of MGMT Hypermethylation as a Biomarker for Veliparib-Mediated Temozolomide-Sensitizing Therapy of Glioblastoma

Gupta, Shiv K. ; Kizilbash, Sani H. ; Carlson, Brett L. ; [et al.]

Oxford University Press (OUP) ; 2015

In: Journal of the National Cancer Institute Vol. 108, No. 5 ( 2015-05), p. djv369-

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In: Journal of the National Cancer Institute, Oxford University Press (OUP), Vol. 108, No. 5 ( 2015-05), p. djv369-

Type of Medium: Online Resource

ISSN: 0027-8874 , 1460-2105

URL: Article

DOI: 10.1093/jnci/djv369

RVK:

XA 10000

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2015

detail.hit.zdb_id: 2992-0

detail.hit.zdb_id: 1465951-7

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Abstract 340: Talazoparib enhances low-dose temozolomide efficacy in flank glioblastoma models, but intracranial efficacy is constrained by limited brain distribution

Kizilbash, Sani H. ; Chang, Kenneth ; Gupta, Shiv K. ; [et al.]

American Association for Cancer Research (AACR) ; 2016

In: Cancer Research Vol. 76, No. 14_Supplement ( 2016-07-15), p. 340-340

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 76, No. 14_Supplement ( 2016-07-15), p. 340-340

Abstract: BACKGROUND: Talazoparib (TAL) is a potent poly (ADP-ribose) polymerase (PARP) inhibitor that robustly enhances in vitro sensitivity to temozolomide (TMZ) in several tumor models. We assessed the in vitro and in vivo efficacy of TAL combined with TMZ in glioblastoma (GBM) models. METHODS: Established glioma cell lines (T98G, U251) and the GBM12 patient derived xenograft (PDX) line were treated in vitro with TAL (1-10 nM) ± TMZ (2-300 μM). Antitumor efficacy was assessed with CyQUANT, clonogenic and primary neurosphere assays; cell cycle analysis with flow cytometry; DNA damage signaling with phospho-specific western blots for pKap1, pChk1, pChk2 and fluorescent immunocytochemistry for γH2AX and replication protein A foci. Brain and plasma concentrations of TAL in wild-type (WT), Mdr1a/b(-/-), Bcrp(-/-) and Mdr1a/b(-/-)Bcrp(-/-) knockout (KO) mice were assessed with LC-MS/MS. The tolerability of TAL (0.05 - 0.30 mg/kg/day orally, divided twice daily (div. bid)) and TMZ (5-50 mg/kg/day orally) was tested in athymic nude mice. Subsequently, in vivo combination TAL/TMZ efficacy was assessed with survival analyses in intracranial and flank GBM12 PDX models. RESULTS: TAL 1-3 nM sensitizes the TMZ resistant T98G glioma cell line to TMZ at high TMZ concentrations (30-300 μM) and is associated with G2 cell cycle arrest and enhanced DNA damage signaling. TAL 1-3 nM also enhances the cytotoxic efficacy of lower concentrations of TMZ (10-30 μM) in the TMZ sensitive U251 cell line. At least 3 nM TAL is required to enhance the in vitro efficacy of low TMZ concentrations (2-10 μM) in the TMZ sensitive GBM12 PDX line. PK studies in non-tumor bearing WT FVB mice treated with a single dose of TAL 0.15 mg/kg revealed mean brain and plasma concentrations of 0.49 ng/g (1.3 nM) and 25.5 ng/ml (67.1 nM) respectively at 2 hours. The mean brain/plasma ratio at 2 hours was unchanged in Bcrp(-/-) KO mice compared to WT mice (1.2% vs. 2.0%), but was significantly increased in Mdr1a/b(-/-) KO mice (22.8%) and Mdr1a/b(-/-)Bcrp(-/-) KO mice (23.9%). Standard doses of TMZ (50 mg/kg/day, days 1-5) combined with low doses of TAL (0.05 mg/kg/day, div. bid) were toxic in nude mice. Higher doses of TAL (0.30 mg/kg/day, div. bid) required substantial TMZ dose reductions (5 mg/kg/day, days 1-5) for tolerability. The addition of TAL (0.30 mg/kg/day, div. bid) to low-dose TMZ (5 mg/kg/day) prolonged tumor stasis in flank GBM12 xenografts (median time to endpoint 76 vs. 50 days, p = 0.005). However this regimen was ineffective in intracranial GBM12 xenografts (median survival 37 vs. 30 days, p = 0.93). CONCLUSIONS: TAL is a potent PARP inhibitor that enhances the efficacy of TMZ in both in vitro GBM models and flank GBM12 PDX models, but not in the corresponding GBM12 intracranial xenografts. This lack of intracranial efficacy is associated with limited brain distribution due to active efflux mediated by Mdr1 at the blood-brain barrier. Citation Format: Sani H. Kizilbash, Kenneth Chang, Shiv K. Gupta, Ryo Kawashima, Karen Parrish, Ann C. Mladek, Brett L. Carlson, Katrina K. Bakken, Mark A. Schroeder, Gaspar J. Kitange, Paul A. Decker, Yuqiao Shen, William F. Elmquist, Jann N. Sarkaria. Talazoparib enhances low-dose temozolomide efficacy in flank glioblastoma models, but intracranial efficacy is constrained by limited brain distribution. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 340.

Type of Medium: Online Resource

ISSN: 0008-5472 , 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2016-340

RVK:

XA 36000

RVK:

XA 10000

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2016

detail.hit.zdb_id: 2036785-5

detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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Abstract 3505: Inhibition of PARP activity by BGB-290 potentiates efficacy of temozolomide in patient derived xenografts of glioblastoma multiforme

Gupta, Shiv K. ; Carlson, Brett L. ; Schroeder, Mark A. ; [et al.]

American Association for Cancer Research (AACR) ; 2015

In: Cancer Research Vol. 75, No. 15_Supplement ( 2015-08-01), p. 3505-3505

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 75, No. 15_Supplement ( 2015-08-01), p. 3505-3505

Abstract: Glioblastoma multiforme (GBM) is an aggressive and fatal disease commonly treated with radiation and temozolomide (TMZ), but emergence of therapy resistance invariably limits treatment efficacy. Inhibition of Poly-ADP ribose polymerases 1 and 2 (PARP1/2) sensitizes GBM cells, and inhibitors of PARP are emerging as combination partners with TMZ. However, limited brain penetration precludes use of several promising PARP inhibitors in GBM. BGB-290 is a relatively new and potent PARP inhibitor that crosses the blood brain barrier with a brain to plasma ratio of ∼0.2. The focus of the present study was to evaluate antitumor effects of BGB-290, as single agent or in combination with TMZ, in patient derived GBM xenografts and glioma cell lines. In a biochemical assay, low doses (30-100 nM) of BGB-290 suppressed PARP activity, while single agent anti-tumor activity of BGB-290 was modest and restricted to concentrations above 3 μM. Combinations of 0.1 μM BGB-290 with 10 μM TMZ significantly diminished primary neurosphere formation in a patient-derived xenograft line, GBM12, decreasing relative neurosphere count to 3.1 ± 1.3% as compared to 9.2 ± 3.1% with TMZ alone, p = 0.03. Consistent with a mechanism involving disruption of DNA repair, treatment of GBM12 cells with TMZ and BGB-290 combination resulted in robust γH2AX foci formation and a synergistic increase in DNA damage signaling as compared to TMZ or BGB-290 alone. TMZ-sensitizing effects of BGB-290 were heterogeneous in TMZ-resistant (GBM12TMZ) sublines that were developed previously by in vivo selection of parental GBM12 with cyclical TMZ therapy. The average neurosphere formation across 4 resistant sublines lacking MGMT expression after 100 μM TMZ only was 75.3 ± 9.0% versus 14.9 ± 7.4% with TMZ and 0.1 μM BGB-290, p & lt;0.01. In contrast, 2 MGMT overexpressing sublines were much less sensitive to the combination with relative neurospheres 91.9 ± 5.2% versus 73.2 ± 9.2% respectively, p & lt; 0.01. Next Gen Sequencing revealed discrete non-synonymous somatic mutations in the mismatch repair pathway of GBM12TMZ sublines lacking MGMT, which led us to examine the relationship between mismatch repair and sensitizing effects of PARP inhibition. Silencing Msh2 resulted in marked TMZ resistance in U251 cells (94.7± 5.4% relative growth with 100 μM TMZ), while co-treatment with 0.1 μM BGB-290 and 100 μM TMZ decreased growth to 23.5 ± 9.6% (p & lt;0.01), which is similar sensitivity to TMZ alone in U251 parental cells. In an initial in vivo study with orthotopic GBM12 xenografts, administration of BGB-290 at 3 mg/kg twice per day combined with 25 mg/kg TMZ extended survival of animals beyond 300 days (80% survival at day 320), while in the group treated with TMZ alone 80% animals were moribund before day 150. In conclusion, BGB-290 is a promising PARP inhibitor with high potency, cytotoxicity and favorable in vivo efficacy in TMZ sensitive and possibly a subset of recurrent TMZ resistant GBM. Citation Format: Shiv K. Gupta, Brett L. Carlson, Mark A. Schroeder, Katrina K. Bakken, Ann C. Tuma, Jann N. Sarkaria. Inhibition of PARP activity by BGB-290 potentiates efficacy of temozolomide in patient derived xenografts of glioblastoma multiforme. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 3505. doi:10.1158/1538-7445.AM2015-3505

Type of Medium: Online Resource

ISSN: 0008-5472 , 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2015-3505

RVK:

XA 36000

RVK:

XA 10000

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2015

detail.hit.zdb_id: 2036785-5

detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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Abstract C096: Modeling the clinical paradigm of lisavanbulin (BAL101553) deployment in patient-derived xenografts (PDX) of glioblastoma (GBM)

Burgenske, Danielle M ; Mladek, Ann C ; Pokorny, Jenny L ; [et al.]

American Association for Cancer Research (AACR) ; 2019

In: Molecular Cancer Therapeutics Vol. 18, No. 12_Supplement ( 2019-12-01), p. C096-C096

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In: Molecular Cancer Therapeutics, American Association for Cancer Research (AACR), Vol. 18, No. 12_Supplement ( 2019-12-01), p. C096-C096

Abstract: Lisavanbulin (LIS; BAL101553) is the prodrug of BAL27862, a microtubule-binding, tumor checkpoint controller and potential radiosensitizer. These studies evaluated optimal integration of LIS with standard of care radiation therapy (RT) and/or temozolomide (TMZ) using GBM PDX models. Distribution across the blood brain barrier was evaluated after a single 30 mg/kg oral LIS dose, and concentrations of the active metabolite BAL27862 were measured by liquid chromatography-tandem mass spectrometry. Similar BAL27862 concentrations were detected in the brain (B) and plasma (P) at both two (B:P ratio 1.29) and six hours (B:P ratio 1.64) post-dose. An in vivo screen of LIS monotherapy across 14 orthotopic GBM PDX models showed significant survival benefit (p & lt;0.01) in seven models (median survival extension 24-87%). Extending from these results, LIS was evaluated in several of the sensitive models in combination with RT +/- TMZ. Two MGMT unmethylated PDXs, GBM6 and GBM150, were treated with vehicle or two weeks of RT +/- LIS. LIS dosing during the RT dosing period did not significantly improve median survival in either line (GBM6 survival with RT 54 days vs RT/LIS 58 days, p=0.16; GBM150 RT 86 days vs RT/LIS 101 days, p=0.21). However, prolonged LIS dosing from the start of RT until mice reached a moribund state demonstrated added benefit (GBM6 median 90 days vs RT 69 days, p=0.0001; GBM150 median 143 days vs RT 73 days, p=0.06). In GBM6, prolonged LIS dosing also significantly extended survival when combined with 2 weeks of RT/TMZ (median 101 days vs 66 days, p & lt;0.0001), while LIS alone or RT/TMZ resulted in similar median survivals (63 days vs 66 days, respectively; p=0.68). This same RT/TMZ/LIS benefit was not seen in the MGMT methylated GBM12. Subsequent experiments were performed to evaluate integration of prolonged LIS dosing with concurrent RT/TMZ followed by 3 cycles of adjuvant TMZ (‘Stupp’ regimen). In MGMT methylated GBM39, LIS alone did not significantly extend survival, but LIS addition to the Stupp regimen doubled median survival (Stupp 249 days vs Stupp/LIS 502 days, p=0.0001). GBM150 demonstrated equal benefit from LIS alone or Stupp regimen (median 118 days vs 123 days, p=0.49). Stupp/LIS showed no additional survival benefit (median 98 days, p=0.97). In a second MGMT unmethylated, TMZ-resistant GBM26 PDX, LIS alone or combined with the Stupp regimen provided significant survival benefit: median survival 53 days for vehicle vs. 80 days for LIS (p=0.0001), 114 days for RT only (p & lt;0.0001), 147 days for RT/LIS (p=0.30 relative to RT), 121 days for ‘Stupp’ regimen alone (p=0.57 relative to RT), and 172 days for Stupp/LIS (p=0.04 relative to Stupp). A follow-up GBM39 study revealed a significant increase in the mitotic marker phospho-histone H3 with LIS treatment relative to vehicle-treated controls (p=0.01) while Ki67 levels were similar (p=0.15). This suggests that LIS induces a mitotic arrest associated with microtubule deregulation. Collectively, these data provide a strong rationale to evaluate lisavanbulin (BAL101553) with RT +/- TMZ in GBM and provided the basis for an ongoing Phase I clinical trial. Citation Format: Danielle M Burgenske, Ann C Mladek, Jenny L Pokorny, Heidi A Lane, Felix Bachmann, Rachael A Vaubel, Mark A Schroeder, Katrina K Bakken, Lihong He, Zeng Hu, Brett L Carlson, Surabhi Talele, Gautham Gampa, Matthew L Kosel, Paul A Decker, Jeanette E Eckel-Passow, William F Elmquist, Jann Sarkaria. Modeling the clinical paradigm of lisavanbulin (BAL101553) deployment in patient-derived xenografts (PDX) of glioblastoma (GBM) [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference on Molecular Targets and Cancer Therapeutics; 2019 Oct 26-30; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2019;18(12 Suppl):Abstract nr C096. doi:10.1158/1535-7163.TARG-19-C096

Type of Medium: Online Resource

ISSN: 1535-7163 , 1538-8514

URL: Article

DOI: 10.1158/1535-7163.TARG-19-C096

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2019

detail.hit.zdb_id: 2062135-8

SSG: 12

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Abstract C051: MDM2 inhibitor KRT-232 extends survival in glioblastoma patient-derived xenograft models

Mladek, Ann C ; Gupta, Shiv ; Kim, Minjee ; [et al.]

American Association for Cancer Research (AACR) ; 2019

In: Molecular Cancer Therapeutics Vol. 18, No. 12_Supplement ( 2019-12-01), p. C051-C051

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In: Molecular Cancer Therapeutics, American Association for Cancer Research (AACR), Vol. 18, No. 12_Supplement ( 2019-12-01), p. C051-C051

Abstract: Cell survival following radiation therapy (RT) is critically modulated by multiple DNA damage response pathways including the p53 tumor suppressor, which promotes cell cycle arrest and/or apoptosis in the face of DNA damage. Murine Double Minute 2 (MDM2) targets p53 for degradation and suppresses its functions. The MDM2 locus is amplified in approximately 14% of glioblastoma (GBM) tumors and is a promising target for individualized therapy. In these studies, we tested the MDM2 small molecule inhibitor KRT-232, alone and in combination with RT, in MDM2-amplified and/or p53 wildtype patient-derived xenograft (PDX) models of GBM in vitro and in vivo. KRT-232 suppressed GBM PDX cell explant culture viability in three MDM2-amplified lines (GBM46, 108, and 148) and two non-amplified but p53 wildtype lines (GBM10 and 39) with similar IC50s ranging from 300-800nM in FBS culture conditions. As expected, little suppression was observed in a p53 mutant (GBM43) line. Many drugs have limited distribution in the brain, and to understand limitations surrounding KRT-232, LCMS-MS was used to compare brain and plasma levels of drug in mice. Preliminary pharmacokinetic analysis using FVB wildtype mice compared to mice which maintain triple knockout of the efflux transporters Mdr1a, Mdr1b and Bcrp1–/– (TKO) treated with a single 10 mg/kg oral dose of KRT-232 and harvested 2 hours later demonstrate an 8% brain/plasma ratio of KRT-232 in the TKO mice, while levels were undetectable in WT mice. In light of these data, the efficacy of KRT-232 was initially tested in vivo in an MDM2-amplified GBM108 PDX with an artificially disrupted BBB afforded by VEGFA lentiviral expression. In this model, daily dosing with KRT-232 alone produced a 100 day prolongation in survival as compared to vehicle. In a subsequent experiment, just one week of daily KRT-232 dosing, either alone or in combination with RT, in the control GBM108 PDX with a relatively intact BBB, was remarkably effective; median survival for placebo 22 days, KRT-232 alone 46 days, RT alone 31 days, and the KRT-232/RT combination 77 days. Despite low BBB penetration as determined by pharmacokinetic studies, KRT-232 alone and in combination with RT is an effective treatment in a pre-clinical model of glioblastoma. Future studies will evaluate KRT-232 pharmacodynamic responses as well as PDX orthotopic combination therapy in additional MDM2 amplified and non-amplified/p53 wildtype lines to understand if this therapy can be used in a larger population of GBM tumors. Citation Format: Ann C Mladek, Shiv Gupta, Minjee Kim, Afroz Shareef Mohammad, Katrina K Bakken, Helen He, Zeng Hu, Danielle M Burgenske, Brett L Carlson, William F Elmquist, Jann Sarkaria. MDM2 inhibitor KRT-232 extends survival in glioblastoma patient-derived xenograft models [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference on Molecular Targets and Cancer Therapeutics; 2019 Oct 26-30; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2019;18(12 Suppl):Abstract nr C051. doi:10.1158/1535-7163.TARG-19-C051

Type of Medium: Online Resource

ISSN: 1535-7163 , 1538-8514

URL: Article

DOI: 10.1158/1535-7163.TARG-19-C051

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2019

detail.hit.zdb_id: 2062135-8

SSG: 12

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Quantitative Phosphoproteomics Reveals Wee1 Kinase as a Therapeutic Target in a Model of Proneural Glioblastoma

Lescarbeau, Rebecca S. ; Lei, Liang ; Bakken, Katrina K. ; [et al.]

American Association for Cancer Research (AACR) ; 2016

In: Molecular Cancer Therapeutics Vol. 15, No. 6 ( 2016-06), p. 1332-1343

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In: Molecular Cancer Therapeutics, American Association for Cancer Research (AACR), Vol. 15, No. 6 ( 2016-06), p. 1332-1343

Type of Medium: Online Resource

ISSN: 1535-7163 , 1538-8514

URL: Article

DOI: 10.1158/1535-7163.MCT-15-0692-T

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2016

detail.hit.zdb_id: 2062135-8

SSG: 12

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Abstract 4781: The novel tubulin-binding ‘tumor checkpoint controller’ BAL101553 has anti-cancer activity alone and in combination treatments across a panel of GBM patient-derived xenografts

Mladek, Ann C. ; Pokorny, Jenny L. ; Lane, Heidi ; [et al.]

American Association for Cancer Research (AACR) ; 2016

In: Cancer Research Vol. 76, No. 14_Supplement ( 2016-07-15), p. 4781-4781

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 76, No. 14_Supplement ( 2016-07-15), p. 4781-4781

Abstract: Microtubule-targeting agents (MTA) have been employed in the treatment of many cancers for decades. BAL101553 is a highly soluble prodrug of BAL27862, a novel, small molecule, microtubule-depolymerizing agent that induces tumor cell death by activating the ‘spindle assembly checkpoint’. Given intravenously or orally, the drug penetrates the brain and has anti-cancer activity in diverse tumor models refractory to standard MTA or radiotherapy (RT). In this study, BAL101553 was evaluated in orthotopic xenografts from 16 GBM PDX models; 7 of 16 lines demonstrated significant (p & lt;0.01) increases in median survival with BAL101553 versus placebo (range in median survival extension 24-87%). The combination of BAL101553 with conventional therapies for GBM (RT and temozolomide (TMZ) was then evaluated in select lines. In the MGMT methylated GBM12 line, combination of RT with TMZ increased survival compared to placebo (median survival 80 days vs. 23 days, respectively; p & lt;0.001). Extended BAL101553 monotherapy provided a short but significant extension in survival (median survival 31 days, p & lt;0.001), while extended BAL101553 dosing during and after RT/TMZ (median survival 85 days) did not extend survival relative to RT/TMZ alone (p = 0.56). In contrast, in the MGMT unmethylated GBM6 line, combination of RT and extended BAL101553 increased survival (median 90 days, p & lt;0.001) relative to either treatment alone (median survival BAL101553 63 days; RT 69 days) or placebo (46 days). Additionally, the combination of BAL101553 with TMZ (median survival 70 days) was more effective than TMZ alone (median survival 60 days; p = 0.009). Consistent with the unmethylated MGMT status, the TMZ/RT combination (median survival 66 days) was similar to RT alone (p = 0.62), but the combination of extended BAL101553 with RT/TMZ (median survival 101 days; p & lt;0.001 compared to other combination groups) was significantly more effective. To further evaluate whether BAL101553 is a true radiosensitizer, a second GBM6 study was performed. Also here, combination of RT (20Gy, 2wks) with extended BAL101553 dosing (median survival 66 days) significantly extended survival compared to RT alone (median survival 54 days; p = 002). Interestingly, when BAL101553 dosing was limited to 2 weeks with RT, there was no increase in median survival (58 days; p = 0.16). To evaluate effects on tumor repopulation during RT, the efficacy of an extended RT schedule (36 Gy, 6 wks) with or without 6 weeks of BAL101553 was evaluated. In this case, BAL101553 given during the RT schedule (median survival 78 days) extended median survival as compared to RT alone (61 days; p & lt;0.001). Collectively, these data demonstrate that BAL101553 has broad single agent activity across a panel of GBM PDX models and suggests that combination with RT/TMZ therapy may provide additional benefits for survival extension. Citation Format: Ann C. Mladek, Jenny L. Pokorny, Heidi Lane, Felix Bachmann, Mark A. Schroeder, Katrina K. Bakken, Brett L. Carlson, Paul A. Decker, Jeanette E. Eckel-Passow, Jann N. Sarkaria. The novel tubulin-binding ‘tumor checkpoint controller’ BAL101553 has anti-cancer activity alone and in combination treatments across a panel of GBM patient-derived xenografts. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4781.

Type of Medium: Online Resource

ISSN: 0008-5472 , 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2016-4781

RVK:

XA 36000

RVK:

XA 10000

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2016

detail.hit.zdb_id: 2036785-5

detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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