Neural Stem Cell-Mediated Delivery of Irinotecan-Activating Carboxylesterases to Glioma: Implications for Clinical Use

Metz, Marianne Z.; Gutova, Margarita; Lacey, Simon F.; Abramyants, Yelena; Vo, Tien; Gilchrist, Megan; Tirughana, Revathiswari; Ghoda, Lucy; Barish, Michael E.; Brown, Christine E.; Najbauer, Joseph; Potter, Philip M.; Portnow, Jana; Synold, Timothy W.; Aboody, Karen S.

doi:10.5966/sctm.2012-0177

Cited by 61 publications

(63 citation statements)

References 42 publications

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“…It resulted in improvement in progression of survival not translated in improvement of overall survival [15]. Irinotecan has marginal activity in recurrent glioblastoma multiforme with progression free survival at 6 months 16% [16]. Irinotecan active metabolite (100-1000 times more active inhibitor of topoisomerse) is 7-ethyl-10-hydroxycamptothecin (SN-38).…”

Section: Response and Toxicitymentioning

confidence: 99%

Non-methylated MGMT as Predictive Factor in Newly Diagnosed Glioblastoma Multiforme Treated with Bevacizumab Concurrent with Radiotherapy Followed by Adjuvant Bevacizumab plus Irinotecan versus Temozolomide Concurrent with Radiotherapy Followed by Adjuvant Temozolomide

Mohamed¹,

Elkady²,

Shosha³

et al. 2018

Arch Cancer Re

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Background and Purpose: Temozolomide is the standard treatment for patients with newly diagnosed glioblastoma multiform that had methylated O 6 -methylguanine-DNA methyltransferase promotor, but it had a limited efficacy in non-methylated MGMT. Thus the aim of this study is to compare bevacizumab plus irinotecan versus standard temozolomide in newly diagnosed non methylated MGMT glioblastome multiforme.

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Section: Response and Toxicitymentioning

confidence: 99%

Non-methylated MGMT as Predictive Factor in Newly Diagnosed Glioblastoma Multiforme Treated with Bevacizumab Concurrent with Radiotherapy Followed by Adjuvant Bevacizumab plus Irinotecan versus Temozolomide Concurrent with Radiotherapy Followed by Adjuvant Temozolomide

Mohamed¹,

Elkady²,

Shosha³

et al. 2018

Arch Cancer Re

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“…The level of SN-38 (14.28 nM) in this study is the concentration that could reduce the cell viability in vitro, but it may not be enough in vivo. [49][50][51] The low efficacy of the CE gene in vivo may be caused by the low activity of the human enzyme. In contrast to CE, the therapeutic gene, sTRAIL, was successfully expressed in hAT-MSCs, and the protein was secreted into conditioned media in vitro.…”

Section: Discussionmentioning

confidence: 99%

Clinically applicable human adipose tissue-derived mesenchymal stem cells delivering therapeutic genes to brainstem gliomas

et al. 2015

Cancer Gene Ther

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Pediatric brainstem glioma is an incurable malignancy because of its inoperability. As a result of their extensive tropism toward cancer and the possibility of autologous transplantation, human adipose-derived mesenchymal stem cells (hAT-MSC) are attractive vehicles to deliver therapeutic genes to brainstem gliomas. In this study, in a good manufacturing practice (GMP) facility, we established clinically applicable hAT-MSCs expressing therapeutic genes and investigated their therapeutic efficacy against brainstem glioma in mice. For feasible clinical applications, (1) primary hAT-MSCs were cultured from human subcutaneous fat to make autologous transplantation possible, (2) hAT-MSCs were genetically engineered to express carboxyl esterase (CE) and (3) a secreted form of the tumor necrosis factor-related apoptosis-inducing ligand (sTRAIL) expression vector for synergistic effects was delivered by a gene transfer technology that did not result in genomic integration of the vector. (4) Human CE and sTRAIL sequences were utilized to avoid immunological side effects. The hAT-MSCs expressing CE±sTRAIL showed significant therapeutic effects against brainstem gliomas in vitro and in vivo. However, the simultaneous expression of CE and sTRAIL had no synergistic effects in vivo. The results indicate that non-viral transient single sTRAIL gene transfer to autologous hAT-MSCs is a clinically applicable stem cell-based gene therapy for brainstem gliomas in terms of therapeutic effects and safety.

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“…Since mesenchymal stem cells and neural stem cells can be used in therapeutic delivery for GBM, there is a need to further study the mechanism by which miR-9 is involved in GBM resistance [20–22]. This study reports on the molecular mechanisms by which TMZ-induced miR-9 in GBM cells.…”

Section: Introductionmentioning

confidence: 99%

Temozolomide resistance in glioblastoma occurs by miRNA-9-targeted PTCH1, independent of sonic hedgehog level

et al. 2015

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Glioblastoma Multiforme (GBM), the most common and lethal adult primary tumor of the brain, showed a link between Sonic Hedgehog (SHH) pathway in the resistance to temozolomide (TMZ). PTCH1, the SHH receptor, can tonically represses signaling by endocytosis. We asked how the decrease in PTCH1 in GBM cells could lead to TMZ-resistance. TMZ resistant GBM cells have increased PTCH1 mRNA and reduced protein. Knockdown of Dicer, a Type III RNAase, indicated that miRNAs can explain the decreased PTCH1 in TMZ resistant cells. Computational studies, real-time PCR, reporter gene studies, western blots, target protector oligos and ectopic expression identified miR-9 as the target of PTCH1 in resistant GBM cells with concomitant activation of SHH signaling. MiR-9 mediated increases in the drug efflux transporters, MDR1 and ABCG2. MiR-9 was increased in the tissues from GBM patients and in an early passage GBM cell line from a patient with recurrent GBM but not from a naïve patient. Pharmacological inhibition of SHH signaling sensitized the GBM cells to TMZ. Taken together, miR-9 targets PTCH1 in GBM cells by a SHH-independent method in GBM cells for TMZ resistance. The identified pathways could lead to new strategies to target GBM with combinations of drugs.

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Neural Stem Cell-Mediated Delivery of Irinotecan-Activating Carboxylesterases to Glioma: Implications for Clinical Use

Cited by 61 publications

References 42 publications

Non-methylated MGMT as Predictive Factor in Newly Diagnosed Glioblastoma Multiforme Treated with Bevacizumab Concurrent with Radiotherapy Followed by Adjuvant Bevacizumab plus Irinotecan versus Temozolomide Concurrent with Radiotherapy Followed by Adjuvant Temozolomide

Non-methylated MGMT as Predictive Factor in Newly Diagnosed Glioblastoma Multiforme Treated with Bevacizumab Concurrent with Radiotherapy Followed by Adjuvant Bevacizumab plus Irinotecan versus Temozolomide Concurrent with Radiotherapy Followed by Adjuvant Temozolomide

Clinically applicable human adipose tissue-derived mesenchymal stem cells delivering therapeutic genes to brainstem gliomas

Temozolomide resistance in glioblastoma occurs by miRNA-9-targeted PTCH1, independent of sonic hedgehog level

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