17 results on '"Roger H. Pak"'
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2. Antibody-Drug Conjugates: Design, Formulation and Physicochemical Stability
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Donna L. Luisi, Roger H. Pak, and Satish K. Singh
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Models, Molecular ,Drug ,Antibody-drug conjugate ,Glycosylation ,Immunoconjugates ,Chemical Phenomena ,Cytotoxic drug ,media_common.quotation_subject ,Antibody Affinity ,Pharmaceutical Science ,Nanotechnology ,Synergistic combination ,Protein Engineering ,Drug Stability ,Animals ,Humans ,Pharmacology (medical) ,media_common ,Pharmacology ,Organic Chemistry ,Antibodies, Monoclonal ,Combinatorial chemistry ,Small molecule ,First generation ,body regions ,Pharmaceutical Preparations ,Drug Design ,Molecular Medicine ,Binding Sites, Antibody ,Linker ,Biotechnology ,Conjugate - Abstract
The convergence of advanced understanding of biology with chemistry has led to a resurgence in the development of antibody-drug conjugates (ADCs), especially with two recent product approvals. Design and development of ADCs requires the synergistic combination of the monoclonal antibody, the linker and the payload. Advances in antibody science has enabled identification and generation of high affinity, highly selective, humanized or human antibodies for a given target. Novel linker technologies have been synthesized and highly potent cytotoxic drug payloads have been created. As the first generation of ADCs utilizing lysine and cysteine chemistries moves through the clinic and into commercialization, second generation ADCs involving site specific conjugation technologies are being evaluated and tested. The latter aim to be better characterized and controlled, with wider therapeutic indices as well as improved pharmacokinetic-pharmacodynamic (PK-PD) profiles. ADCs offer some interesting physicochemical properties, due to conjugation itself, and to the (often) hydrophobic payloads that must be considered during their CMC development. New analytical methodologies are required for the ADCs, supplementing those used for the antibody itself. Regulatory filings will be a combination of small molecule and biologics. The regulators have put forth some broad principles but this landscape is still evolving.
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- 2015
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3. Pharmaceutical development of IPI-504, an Hsp90 inhibitor and clinical candidate for the treatment of cancer
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John Lee, Roger H. Pak, Louis Grenier, Vince Ammoscato, Michael Curtis, Kaiming Li, John Henderson, Matthew Campbell, Denise Mayes, Jason Kropp, Natalie Goltz, Bennett Carter, Johan Sebastian Basuki, Bradley Maurer, Gary Baker, James R. Wright, David Rusch, Rebecca Ahn, Brian C. Austad, Kris Depew, Joseph Helble, Jie Ge, Jason J. Piotrowski, Marlene R. Booth, Julian Adams, Mark Douglas, Steven G. Wong, Laila Kott, James R. Porter, Geoff E. Sylvester, Dumitru Ionescu, Jennifer R. Porter, and Brendan Arsenault
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Drug ,Hydroquinone ,Hydrochloride ,media_common.quotation_subject ,Cancer ,Pharmacology ,medicine.disease ,Hsp90 inhibitor ,Quinone ,Clinical trial ,chemistry.chemical_compound ,chemistry ,In vivo ,Drug Discovery ,medicine ,media_common - Abstract
IPI-504 (retaspimycin hydrochloride) is an Hsp90 inhibitor that is the subject of multiple clinical trials for the treatment of cancer. IPI-504 is an aqueous soluble (>200 mg/ml) hydroquinone hydrochloride salt of 17-(allylamino)-17-demethoxygeldanamycin (17-AAG), a quinone derivative also undergoing clinical evaluation, albeit with suboptimal formulations that address its inferior aqueous solubility (∼50 µg/ml). IPI-504 interconverts with 17-AAG in vivo through oxidation-reduction reactions that result in a dynamic redox equilibrium. The development challenges associated with redox active molecules are significant due to the pH, oxygen, and temperature sensitivities associated with such chemotypes. The API and sterile drug product manufacturing processes thus warrant the monitoring and control of these key variables. Furthermore, the pharmaceutical development challenges associated with cancer agents that are often fast-tracked due to unmet medical needs mandate a rapid development cycle with associated regulatory hurdles. Drug Dev Res 71: 429–438, 2010. © 2010 Wiley-Liss, Inc.
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- 2010
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4. Development of 17-allylamino-17-demethoxygeldanamycin hydroquinone hydrochloride (IPI-504), an anti-cancer agent directed against Hsp90
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Roger H. Pak, Louis Grenier, Julian Adams, Jeffrey K. Tong, James D. Wright, Janid A. Ali, Courtney Penders, Emmanuel Normant, Jens R. Sydor, Jon S. Patterson, Melissa Pink, Jie Ge, Jebecka Hudak, Marlene Dembski, Yilong Zhang, Jim Sang, Christine S. Pien, Caroline N. Woodward, James R. Porter, Margaret Read, John A. Barrett, David Grayzel, and Vito J. Palombella
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Lactams, Macrocyclic ,Antineoplastic Agents ,Biology ,Tanespimycin ,Pharmacology ,Hsp90 inhibitor ,Mice ,chemistry.chemical_compound ,In vivo ,Cell Line, Tumor ,Neoplasms ,hemic and lymphatic diseases ,Benzoquinones ,polycyclic compounds ,medicine ,Animals ,Humans ,HSP90 Heat-Shock Proteins ,Cell Proliferation ,Mice, Inbred BALB C ,Multidisciplinary ,Bortezomib ,Cell growth ,Biological activity ,Biological Sciences ,Xenograft Model Antitumor Assays ,Hsp90 ,chemistry ,Microsomes, Liver ,biology.protein ,Proteasome inhibitor ,medicine.drug - Abstract
Heat shock protein 90 (Hsp90) is an emerging therapeutic target of interest for the treatment of cancer. Its role in protein homeostasis and the selective chaperoning of key signaling proteins in cancer survival and proliferation pathways has made it an attractive target of small molecule therapeutic intervention. 17-Allylamino-17-demethoxygeldanamycin (17-AAG), the most studied agent directed against Hsp90, suffers from poor physical-chemical properties that limit its clinical potential. Therefore, there exists a need for novel, patient-friendly Hsp90-directed agents for clinical investigation. IPI-504, the highly soluble hydroquinone hydrochloride derivative of 17-AAG, was synthesized as an Hsp90 inhibitor with favorable pharmaceutical properties. Its biochemical and biological activity was profiled in an Hsp90-binding assay, as well as in cancer-cell assays. Furthermore, the metabolic profile of IPI-504 was compared with that of 17-AAG, a geldanamycin analog currently in clinical trials. The anti-tumor activity of IPI-504 was tested as both a single agent as well as in combination with bortezomib in myeloma cell lines andin vivoxenograft models, and the retention of IPI-504 in tumor tissue was determined. In conclusion, IPI-504, a potent inhibitor of Hsp90, is efficacious in cellular and animal models of myeloma. It is synergistically efficacious with the proteasome inhibitor bortezomib and is preferentially retained in tumor tissues relative to plasma. Importantly, it was observed that IPI-504 interconverts with the known agent 17-AAGin vitroandin vivovia an oxidation-reduction equilibrium, and we demonstrate that IPI-504 is the slightly more potent inhibitor of Hsp90.
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- 2006
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5. Total Solid-Phase Synthesis of 1,4,7,10-Tetraazacyclododecane-N,N‘,N‘‘,N‘‘‘-tetraacetic Acid-Functionalized Peptides for Radioimmunotherapy
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Claude F. Meares, Jim Peterson, and Roger H. Pak
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Stereochemistry ,medicine.medical_treatment ,Molecular Sequence Data ,Biomedical Engineering ,Pharmaceutical Science ,Bioengineering ,Heterocyclic Compounds, 1-Ring ,chemistry.chemical_compound ,Solid-phase synthesis ,medicine ,DOTA ,Moiety ,Amino Acid Sequence ,Chromatography, High Pressure Liquid ,Chelating Agents ,Pharmacology ,Organic Chemistry ,Radioimmunotherapy ,chemistry ,Surface modification ,Indicators and Reagents ,Peptides ,Oligopeptides ,Resins, Plant ,Biotechnology - Abstract
A convenient approach to the functionalization of peptides with the macrocyclic 1,4,7,10-tetraazacyclododecane-N,N',N'',N'''-tetraacetic acid (DOTA) moiety has been developed. Protected components (using tert-butyl or tert-butyloxycarbonyl groups) of both the peptide and the chelate were assembled on the same solid resin support. Deprotection and cleavage of the resin-bound DOTA-peptides were performed in one step using a trifluoroacetic acid cleavage mixture to yield free DOTA-peptide amides.
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- 1999
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6. Formulation Approaches and Strategies for PEGylated Biotherapeutics
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Rory F. Finn and Roger H. Pak
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Risk analysis (engineering) ,business.industry ,Computer science ,New product development ,business ,Design for manufacturability - Abstract
This chapter will begin with a brief review of the PEGylated biotherapeutic product landscape (commercial products and known molecules in development) and then discuss various product development approaches and issues. Several topics pertinent to PEGylated biotherapeutics formulation development include manufacturability, linker and conjugate stability, and viscosity and PEG reagent design. A discussion on each topic will be presented with a focus on strategies to overcome typical hurdles encountered.
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- 2013
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7. ChemInform Abstract: Solution-Phase Segment Synthesis of Boron-Rich Peptides
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Robert R. Kane, M. F. Hawthorne, and Roger H. Pak
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chemistry ,chemistry.chemical_element ,Organic chemistry ,General Medicine ,Boron ,Solution phase ,Combinatorial chemistry - Published
- 2010
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8. Inhibition of heat shock protein 90 prolongs survival of mice with BCR-ABL-T315I–induced leukemia and suppresses leukemic stem cells
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Cong Peng, Roger H. Pak, Linghong Kong, Julia Brain, Ami Goodrich, Yiguo Hu, Margaret Ruth Read, David Grayzel, and Shaoguang Li
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Immunology ,Fusion Proteins, bcr-abl ,Biology ,Biochemistry ,Hsp90 inhibitor ,Mice ,hemic and lymphatic diseases ,Cell Line, Tumor ,medicine ,CD135 ,Animals ,HSP90 Heat-Shock Proteins ,Kinase activity ,Enzyme Inhibitors ,Leukemia, Experimental ,Neoplasia ,Imatinib ,Cell Biology ,Hematology ,Protein-Tyrosine Kinases ,medicine.disease ,Hematopoietic Stem Cells ,Survival Analysis ,Leukemia ,Imatinib mesylate ,Amino Acid Substitution ,Cancer research ,Tyrosine kinase ,medicine.drug ,Chronic myelogenous leukemia - Abstract
Development of kinase domain mutations is a major drug-resistance mechanism for tyrosine kinase inhibitors (TKIs) in cancer therapy. A particularly challenging example is found in Philadelphia chromosome–positive chronic myelogenous leukemia (CML) where all available kinase inhibitors in clinic are ineffective against the BCR-ABL mutant, T315I. As an alternative approach to kinase inhibition, an orally administered heat shock protein 90 (Hsp90) inhibitor, IPI-504, was evaluated in a murine model of CML. Treatment with IPI-504 resulted in BCR-ABL protein degradation, decreased numbers of leukemia stem cells, and prolonged survival of leukemic mice bearing the T315I mutation. Hsp90 inhibition more potently suppressed T315I-expressing leukemia clones relative to the wild-type (WT) clones in mice. Combination treatment with IPI-504 and imatinib was more effective than either treatment alone in prolonging survival of mice simultaneously bearing both WT and T315I leukemic cells. These results provide a rationale for use of an Hsp90 inhibitor as a first-line treatment in CML by inhibiting leukemia stem cells and preventing the emergence of imatinib-resistant clones in patients. Rather than inhibiting kinase activity, elimination of mutant kinases provides a new therapeutic strategy for treating BCR-ABL–induced leukemia as well as other cancers resistant to treatment with tyrosine kinase inhibitors.
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- 2007
9. Design, synthesis, and biological evaluation of hydroquinone derivatives of 17-amino-17-demethoxygeldanamycin as potent, water-soluble inhibitors of Hsp90
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Asimina T. Georges, Julian Adams, James R Porter, Janid A. Ali, Emmanuel Normant, Yun Gao, Roger H. Pak, Jie Ge, Vito J. Palombella, Thomas T. Tibbitts, Louis Grenier, Marlene S Dembski, Jeffrey K. Tong, Jon Patterson, and Jens Sydor
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Models, Molecular ,Glucose-regulated protein ,Receptor, ErbB-2 ,Lactams, Macrocyclic ,Antineoplastic Agents ,Fluorescence Polarization ,Chemical synthesis ,Binding, Competitive ,Structure-Activity Relationship ,Dogs ,Heat shock protein ,Cell Line, Tumor ,Drug Discovery ,polycyclic compounds ,Benzoquinones ,Structure–activity relationship ,Animals ,Humans ,Protein Isoforms ,HSP70 Heat-Shock Proteins ,HSP90 Heat-Shock Proteins ,biology ,Chemistry ,Endoplasmic reticulum ,Membrane Proteins ,Water ,Biological activity ,Hsp90 ,Hydroquinones ,Biochemistry ,Rifabutin ,Solubility ,Chaperone (protein) ,biology.protein ,Molecular Medicine ,Drug Screening Assays, Antitumor - Abstract
17-Allylamino-17-demethoxygeldanamycin (17-AAG)1 is a semisynthetic inhibitor of the 90 kDa heat shock protein (Hsp90) currently in clinical trials for the treatment of cancer. However, 17-AAG faces challenging formulation issues due to its poor solubility. Here we report the synthesis and evaluation of a highly soluble hydroquinone hydrochloride derivative of 17-AAG, 1a (IPI-504), and several of the physiological metabolites. These compounds show comparable binding affinity to human Hsp90 and its endoplasmic reticulum (ER) homologue, the 94 kDa glucose regulated protein (Grp94). Furthermore, the compounds inhibit the growth of the human cancer cell lines SKBR3 and SKOV3, which overexpress Hsp90 client protein Her2, and cause down-regulation of Her2 as well as induction of Hsp70 consistent with Hsp90 inhibition. There is a clear correlation between the measured binding affinity of the compounds and their cellular activities. Upon the basis of its potent activity against Hsp90 and a significant improvement in solubility, 1a is currently under evaluation in Phase I clinical trials for cancer.
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- 2006
10. Synthesis and Structural Characterization of [Me3NH][nido-9,11-I2-7,8-C2B9H10] and [Me3NH][nido-9-I-7,8-C2B9H11]
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Robert R. Kane, M. Frederick Hawthorne, Roger H. Pak, and Carolyn B. Knobler
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Inorganic Chemistry ,Stereochemistry ,Chemistry ,Physical and Theoretical Chemistry ,Characterization (materials science) - Published
- 1994
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11. Bispecific antibody mediated targeting of nido-carboranes to human colon carcinoma cells
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Roger H. Pak, Primus Fj, Bolen Jl, Robert R. Kane, Szalai G, M. F. Hawthorne, and Richard-Dickson Kj
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inorganic chemicals ,Models, Molecular ,Bispecific antibody ,medicine.drug_class ,Biomedical Engineering ,Pharmaceutical Science ,Bioengineering ,Boron Neutron Capture Therapy ,Monoclonal antibody ,Carcinoembryonic antigen ,Drug Delivery Systems ,Antigen ,In vivo ,Antibodies, Bispecific ,medicine ,Carcinoma ,Tumor Cells, Cultured ,Cytotoxic T cell ,Humans ,Pharmacology ,biology ,Chemistry ,Organic Chemistry ,medicine.disease ,Molecular biology ,Colonic Neoplasms ,biology.protein ,Human colon ,Biotechnology - Abstract
Boron neutron capture therapy, a binary form of cancer treatment, has the potential to deliver potent cytotoxic radiation to tumor cells with minimal collateral damage to normal tissues if methods for the selective accretion of elevated concentrations of boron-10 in tumor can be developed. In this regard, a monoclonal antibody with dual specificity, for both anionic boron cluster compounds (nido-carboranes) and a tumor-associated antigen (carcinoembryonic antigen, CEA), was produced. The specific binding of a nido-carborane to CEA-expressing tumor cells was achieved using this bispecific antibody. The ability of this bispecific antibody to concentrate selectively at tumor sites in vivo has also been demonstrated, thus suggesting its potential for sequestering boron-rich compounds in tumors.
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- 1996
12. Preparation and properties of nido-carborane-specific monoclonal antibodies for potential use in boron neutron capture therapy for cancer
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M. F. Hawthorne, Primus Fj, Lai Ling Ng, Robert R. Kane, Roger H. Pak, and K. J. Rickard-Dickson
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Stereochemistry ,medicine.drug_class ,Boranes ,Boron Neutron Capture Therapy ,Enzyme-Linked Immunosorbent Assay ,Monoclonal antibody ,Binding, Competitive ,Structure-Activity Relationship ,Antibody Specificity ,Neoplasms ,medicine ,Structure–activity relationship ,Humans ,Surface plasmon resonance ,Drug Carriers ,Multidisciplinary ,Bispecific monoclonal antibody ,Chemistry ,Antibodies, Monoclonal ,Butyrates ,Drug Design ,Carborane ,Drug carrier ,Hapten ,Haptens ,Research Article - Abstract
As the first step of a research program aimed at developing a bispecific monoclonal antibody system for the delivery of boron-rich molecules to tumor cells for boron neutron capture therapy, monoclonal antibodies (mAbs) were produced against an anionic nido-carborane derivative, 4-[7,8-dicarbadodecahydroundecaborat(-1)-7-yl]butanoic acid. Two IgG subclass mAbs, designated HAW101 and HAW102, were identified that specifically bound the anionic nido-carborane hapten, as well as a variety of other anionic nido-carborane cage derivatives. By using surface plasmon resonance technology, the affinity constants of HAW101 and HAW102 were determined to be 1.9 x 10(9) and 6.8 x 10(8) M-1, respectively. A diverse array of 7-substituted and 7,8-disubstituted anionic nido-carborane derivatives reacted with the mAb HAW101 in competition ELISA, whereas anionic closo-polyhedral boranes showed negligible binding, suggesting a role for the open nido-carborane cage structure. These results suggest that mAbs such as HAW101, which bind anionic nido-carboranes, are useful in the development of bispecific mAbs for specific targeting and enhanced boron delivery to tumor sites.
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- 1995
13. Novel Carboranyl Amino Acids and Peptides
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Roger H. Pak, M. Frederick Hawthorne, Lai-Ling Ng, and Robert R. Kane
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chemistry.chemical_classification ,biology ,Immunoprotein ,Chemical synthesis ,Combinatorial chemistry ,Amino acid ,chemistry.chemical_compound ,Antigen ,chemistry ,In vivo ,biology.protein ,Molecule ,Propargyl bromide ,Antibody - Abstract
Successful BNCT will require the selective accumulation of 5–30 ppm 10B in tumor. 1 An attractive method for the delivery of boron to tumors is an antibody-based approach, which requires that ~103 boron atoms be delivered by each immunoprotein in order to achieve the necessary 10B concentrations. This requirement presents a chemical challenge which has led us to an interest in the precise chemical synthesis of hydrophilic boron-rich ‘trailer’ molecules. 2 We previously described the synthesis of anionic nido-carborane3 containing peptides 1 and 2 (derived from amino acid 3, Figure 1), their attachment to monoclonal IgG antibodies (Mabs) against the CEA antigen, and the in vivo characterization of these immunoconjugates. 4 However, because we found the sequential coupling reactions leading to the synthesis of 1 and 2 to be prohibitively slow under solid-phase conditions, we have recently begun to explore the synthesis of similar 10B-rich peptides in solution using a ‘doubling’ approach (segment synthesis), which is described herein.
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- 1993
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14. Hsp-90 Inhibition Decreases Survival of BCR-ABL T315I Leukemic Stem Cells in Mice
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Roger H. Pak, Shaoguang Li, Linghong Kong, David Grayzel, Margaret Read, Yiguo Hu, Julia Brain, Cong Peng, and Ami Goodrich
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business.industry ,Immunology ,Imatinib ,Cell Biology ,Hematology ,Pharmacology ,medicine.disease ,Biochemistry ,Leukemia ,Haematopoiesis ,Imatinib mesylate ,medicine.anatomical_structure ,Cancer stem cell ,hemic and lymphatic diseases ,Cancer research ,medicine ,Bone marrow ,Stem cell ,business ,medicine.drug ,Chronic myelogenous leukemia - Abstract
Although advances have been made in the development of novel molecularly targeted drugs, a major therapeutic challenge in the treatment of patients with Philadelphia chromosome positive (Ph+) leukemia includes understanding how to target the leukemic stem cell. We used the bone marrow transplant (BMT) model of chronic myelogenous leukemia (CML) to study effects of imatinib mesylate and the novel, orally active heat shock protein 90 (Hsp90) inhibitor, IPI-504, on leukemic stem cells, based on our observation that unlike imatinib, IPI-504, prolongs survival in a murine model of drug-resistant T315I BCR-ABL-induced CML. We first identified BCR-ABL-expressing hematopoietic stem cells (HSCs) (Lin-c-Kit+Sca-1+) in mouse bone marrow as CML stem cells, as these cells sorted out by FACS from primary CML mice are sufficient to confer leukemia in recipient mice. We then investigated the effects of imatinib and IPI-504 on survival of leukemic stem cells from BCR-ABL T315I induced CML. Bone marrow cells from mice with T315I-induced CML were cultured under conditions that support survival and growth of stem cells, with or without IPI-504 or imatinib. FACS analysis of GFP+Lin-c-Kit+Sca-1+ cells showed that imatinib treatment did not lower the percentage and the number of leukemia stem cells, whereas IPI-504 treatment had a dramatic inhibitory effect on this population (p
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- 2006
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15. IPI-504, a Novel, Orally Active HSP90 Inhibitor, Prolongs Survival of Mice with BCR-ABL T315I CML and B-ALL
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David Grayzel, Margaret Read, Linghong Kong, Shaoguang Li, Roger H. Pak, Julia Brain, Cong Peng, and Yiguo Hu
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business.industry ,Immunology ,Myeloid leukemia ,Imatinib ,Cell Biology ,Hematology ,Pharmacology ,Protein degradation ,medicine.disease ,Biochemistry ,Hsp90 inhibitor ,Dasatinib ,Leukemia ,Imatinib mesylate ,hemic and lymphatic diseases ,Medicine ,business ,neoplasms ,Tyrosine kinase ,medicine.drug - Abstract
Development of mutations within the kinase domain is a major drug-resistance mechanism for tyrosine kinase inhibitors (TKIs) in cancer therapy. In CML (chronic myeloid leukemia), a disease driven by the constitutively active BCR-ABL oncoprotein, no available TKIs have been effective in treating patients with the BCR-ABL T315I mutation. Heat shock protein 90 (Hsp90) is a highly conserved, constitutively expressed molecular chaperone that facilitates folding of client proteins like BCR-ABL, and affects the stability of these proteins. Several labs have shown that Hsp90 inhibition in vitro results in the degradation of BCR-ABL T315I and induces potent killing of these cell lines. However, these results have not been demonstrated in animal models for BCR-ABL-induced CML and B-ALL (B-cell acute lymphoblastic leukemia, a disease that does not respond well to TKIs including imatinib and dasatinib). Thus, IPI-504, an orally administered Hsp90 inhibitor, was evaluated in murine models of CML and B-ALL. Treatment of mice with wild type (WT)- or T315I BCR-ABL-induced CML with IPI-504 resulted in BCR-ABL protein degradation and a decrease in circulating BCR-ABL positive cells. In response to treatment with vehicle the median survival time of WT and T315I CML mice is approximately 20 days. While the T315I CML mice were resistant to imatinib with a median survival of 21 days, IPI-504 (50 and 100 mg/kg, PO TIW) demonstrated dose-dependent prolonged survival of these mice by 30 and 70 days, respectively (p These results provide a rationale for use of an Hsp90 inhibitor as a novel approach to overcoming resistance to TKIs as well as the potential for first line combination treatment in CML patients. The potential for IPI-504 to eliminate mutant kinases via Hsp90 inhibition provides a new therapeutic strategy for treating BCR-ABL-induced CML, ALL as well as other cancers resistant to treatment with TKIs.
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- 2006
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16. Anti-Tumor Activity of IPI-504, a Novel Hsp90 Inhibitor in Multiple Myeloma
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Jon Patterson, Vito J. Palombella, James H. Porter, David Grayzel, Asimina T. Georges, John P. Barrett, Christine Pien, Adams Julian, Jennie Ge, Jeffrey K. Tong, Kenneth C. Anderson, Kerry Spear, Roger H. Pak, Janid Ali, Jebecka Hudak, Constantine S. Mitsiades, Emmanuel Normant, James Homer Wright, Melissa Pink, Louis Grenier, Jens Sydor, Michael Foley, Yun Gao, and Junbiao Sang
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biology ,Immunology ,Cell Biology ,Hematology ,Geldanamycin ,Immunoglobulin light chain ,Biochemistry ,Hsp90 ,In vitro ,Hsp90 inhibitor ,chemistry.chemical_compound ,chemistry ,In vivo ,hemic and lymphatic diseases ,Cancer cell ,polycyclic compounds ,Cancer research ,biology.protein ,Cytotoxic T cell - Abstract
IPI-504 is a novel inhibitor of Hsp90 based on the geldanamycin pharmacophore. When placed in rat, monkey, and human blood, IPI-504 rapidly converts to the known and well-studied compound 17-allylamino-17-demethoxy-geldanamycin (17-AAG). 17-AAG is the subject of multiple clinical trials for the treatment of hematologic and solid tumors. However, 17-AAG suffers from poor aqueous solubility necessitating the use of sub-optimal formulations to deliver this agent to patients. IPI-504 is over 1000-fold more soluble than 17-AAG in aqueous solution. In vitro, both 17-AAG and IPI-504 bind tightly to, and selectively inhibit Hsp90 derived from cancer cells. The cytotoxic effect of IPI-504, as well as its ability to stimulate the degradation of Hsp90 client proteins and increase the intracellular levels Hsp70, were monitored in two human multiple myeloma cells lines (RPMI-8226 and MM1.S). The effects of IPI-504 were compared to 17-AAG. We demonstrate that the actions of IPI-504 are bioequivalent to 17-AAG and that both compounds induce apoptosis in these cells and stimulate the degradation of HER2 and c-Raf. In addition, both agents stimulate Hsp70 protein levels. In all cases the EC50s are virtually the same for both molecules (~200–400 nM). Furthermore, IPI-504 inhibits the secretion of immunoglobulin light chain from the RPMI-8226 multiple myeloma cells (EC50 ~300 nM). Importantly, IPI-504 is active in tumor xenograft models of multiple myeloma. The data indicate that active metabolites of IPI-504 accumulate in these xenografts long after these metabolites are cleared from the plasma compartment, suggesting that they preferentially accumulate in tumor cells based on their increased affinity to Hsp90 derived from tumor cells. In conclusion, we have developed IPI-504 as a novel, potent inhibitor of Hsp90 with greatly increased solubility over 17-AAG, and that IPI-504 is an active anti-tumor agent in vitro and in vivo.
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- 2004
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17. Solution-phase segment synthesis of boron-rich peptides
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Roger H. Pak, M. Frederick Hawthorne, and Robert R. Kane
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chemistry.chemical_compound ,chemistry ,Organic Chemistry ,Peptide synthesis ,Liquid phase ,chemistry.chemical_element ,Boron ,Solution phase ,Combinatorial chemistry ,Dichloromethane - Published
- 1993
- Full Text
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