Τρίτη 3 Σεπτεμβρίου 2019


Highlights of This Issue
Molecular Cancer Therapeutics current issue
10:05
Phenotype-Based Screens with Conformation-Specific Inhibitors Reveal p38 Gamma and Delta as Targets for HCC Polypharmacology
The approved kinase inhibitors for hepatocellular carcinoma (HCC) are not matched to specific mutations within tumors. This has presented a daunting challenge; without a clear target or mechanism, no straightforward path has existed to guide the development of improved therapies for HCC. Here, we combine phenotypic screens with a class of conformation-specific kinase inhibitors termed type II to identify a multikinase inhibitor, AD80, with antitumoral activity across a variety of HCC preclinical...
Molecular Cancer Therapeutics current issue
10:05
Cyclin-Dependent Kinase-9 Is a Therapeutic Target in MYC-Expressing Diffuse Large B-Cell Lymphoma
Deregulation of the MYC transcription factor is a key driver in lymphomagenesis. MYC induces global changes in gene expression that contribute to cell growth, proliferation, and oncogenesis by stimulating the activity of RNA polymerases. A key feature in its ability to stimulate RNA Pol II activity is recruitment of pTEFb, an elongation factor whose catalytic core comprises CDK9/cyclin T complexes. Hence, MYC expression and function may be susceptible to CDK9 inhibition. We conducted a pre-clinical...
Molecular Cancer Therapeutics current issue
10:05
Encapsulation of Temozolomide in a Calixarene Nanocapsule Improves Its Stability and Enhances Its Therapeutic Efficacy against Glioblastoma
The alkylating agent temozolomide (TMZ) is the first-line chemotherapeutic for glioblastoma (GBM), a common and aggressive primary brain tumor in adults. However, its poor stability and unfavorable pharmacokinetic profile limit its clinical efficacy. There is an unmet need to tailor the therapeutic window of TMZ, either through complex derivatization or by utilizing pharmaceutical excipients. To enhance stability and aqueous solubility, we encapsulated TMZ in a p-sulphonatocalix[4]arene (Calix) nanocapsule...
Molecular Cancer Therapeutics current issue
10:05
MEN1309/OBT076, a First-In-Class Antibody-Drug Conjugate Targeting CD205 in Solid Tumors
CD205 is a type I transmembrane glycoprotein and is a member of the C-type lectin receptor family. Analysis by mass spectrometry revealed that CD205 was robustly expressed and highly prevalent in a variety of solid malignancies from different histotypes. IHC confirmed the increased expression of CD205 in pancreatic, bladder, and triple-negative breast cancer (TNBC) compared with that in the corresponding normal tissues. Using immunofluorescence microscopy, rapid internalization of the CD205 antigen...
Molecular Cancer Therapeutics current issue
10:05
Cell Death Induced by Cationic Amphiphilic Drugs Depends on Lysosomal Ca2+ Release and Cyclic AMP
Repurposing cationic amphiphilic drugs (CAD) for cancer treatment is emerging as an attractive means to enhance the efficacy of chemotherapy. Many commonly used CADs, including several cation amphiphilic antihistamines and antidepressants, induce cancer-specific, lysosome-dependent cell death and sensitize cancer cells to chemotherapy. CAD-induced inhibition of lysosomal acid sphingomyelinase is necessary, but not sufficient, for the subsequent lysosomal membrane permeabilization and cell death,...
Molecular Cancer Therapeutics current issue
10:05
Monomer Preference of EGFR Tyrosine Kinase Inhibitors Influences the Synergistic Efficacy of Combination Therapy with Cetuximab
EGFR-mutated lung cancer is a significant subgroup of non–small cell lung cancer. To inhibit EGFR-mediated signals, multiple EGFR tyrosine kinase inhibitors (EGFR-TKI) have been developed; however, approximately one third of patients with EGFR-mutated lung cancer do not respond to EGFR-TKIs. More effective inhibition of EGFR-mediated signals is therefore necessary. For cancers expressing mutated EGFR, including EGFR T790M, which confers resistance to first- (gefitinib and erlotinib) and second- (afatinib)...
Molecular Cancer Therapeutics current issue
10:05
Glutaminase Activity of L-Asparaginase Contributes to Durable Preclinical Activity against Acute Lymphoblastic Leukemia
We and others have reported that the anticancer activity of L-asparaginase (ASNase) against asparagine synthetase (ASNS)-positive cell types requires ASNase glutaminase activity, whereas anticancer activity against ASNS-negative cell types does not. Here, we attempted to disentangle the relationship between asparagine metabolism, glutamine metabolism, and downstream pathways that modulate cell viability by testing the hypothesis that ASNase anticancer activity is based on asparagine depletion rather...
Molecular Cancer Therapeutics current issue
10:05
In Vivo ERK1/2 Reporter Predictively Models Response and Resistance to Combined BRAF and MEK Inhibitors in Melanoma
Combined BRAF and MEK inhibition is a standard of care in patients with advanced BRAF-mutant melanoma, but acquired resistance remains a challenge that limits response durability. Here, we quantitated in vivo ERK1/2 activity and tumor response associated with resistance to combined BRAF and MEK inhibition in mutant BRAF xenografts. We found that ERK1/2 pathway reactivation preceded the growth of resistant tumors. Moreover, we detected a subset of cells that not only persisted throughout long-term...
Molecular Cancer Therapeutics current issue
10:05
Antileukemia Effects of Notch-Mediated Inhibition of Oncogenic PLK1 in B-Cell Acute Lymphoblastic Leukemia
In B-cell acute lymphoblastic leukemia (B-ALL), activation of Notch signaling leads to cell-cycle arrest and apoptosis. We aimed to harness knowledge acquired by understanding a mechanism of Notch-induced cell death to elucidate a therapeutically viable target in B-ALL. To this end, we identified that Notch activation suppresses Polo-like kinase 1 (PLK1) in a B-ALL–specific manner. We identified that PLK1 is expressed in all subsets of B-ALL and is highest in Philadelphia-like (Ph-like) ALL, a high-risk...
Molecular Cancer Therapeutics current issue
10:05
Antibody-Based Delivery of Cytokine Payloads to Carbonic Anhydrase IX Leads to Cancer Cures in Immunocompetent Tumor-Bearing Mice
Antibody–cytokine fusion proteins can have the potential to increase the density and activity of subsets of leukocytes within the tumor mass. Here, we describe the design, production, and characterization of four novel antibody–cytokine fusion proteins directed against human carbonic anhydrase IX, a highly validated marker of hypoxia that is overexpressed in clear cell renal cell carcinoma and other malignancies. As immunomodulatory payloads we used TNF, IL2, IFNα2 (corresponding to products that...
Molecular Cancer Therapeutics current issue
10:05
Anti-GPRC5D/CD3 Bispecific T-Cell-Redirecting Antibody for the Treatment of Multiple Myeloma
Although treatment advances over recent decades have significantly improved survival of patients with multiple myeloma, there is still an unmet medical need for more effective treatments. In this study, we identified G-protein–coupled receptor family C group 5 member D (GPRC5D) expression on the surface of malignant cells involved in multiple myeloma, but except for plasma cells and B cells, not at appreciable levels on normal hematopoietic cells and bone marrow progenitors, including hematopoietic...
Molecular Cancer Therapeutics current issue
10:05
Analysis of the Genomic Landscape in ALK+ NSCLC Patients Identifies Novel Aberrations Associated with Clinical Outcomes
Rearrangements in the anaplastic lymphoma kinase (ALK) gene are found in approximately 5% of non–small cell lung carcinoma (NSCLC). Here, we present a comprehensive genomic landscape of 11 patients with ALK+ NSCLC and investigate its relationship with response to crizotinib. Using whole-exome sequencing and RNAseq data, we identified four rare ALK fusion partners (HIP1, GCC2, ERC1, and SLC16A7) and one novel partner (CEP55). At the mutation level, TP53 was the most frequently mutated gene and was...
Molecular Cancer Therapeutics current issue
10:05
Editor's Note: Regulation of OSU-03012 Toxicity by ER Stress Proteins and ER Stress-Inducing Drugs
Molecular Cancer Therapeutics current issue
10:05
Aggressive Progression in Glioblastoma Cells through Potentiated Activation of Integrin {alpha}5{beta}1 by the Tenascin-C-Derived Peptide TNIIIA2
Tenascin-C is a member of the matricellular protein family, and its expression level is correlated to poor prognosis in cancer, including glioblastoma, whereas its substantial role in tumor formation and malignant progression remains controversial. We reported previously that peptide TNIIIA2 derived from the cancer-associated alternative splicing domain of tenascin-C molecule has an ability to activate β1-integrin strongly and to maintain it for a long time. Here, we demonstrate that β1-integrin...
Molecular Cancer Therapeutics current issue
10:05
An EGFR-Induced Drosophila Lung Tumor Model Identifies Alternative Combination Treatments
Lung cancer is the leading cause of cancer-associated mortality. Mutations in the EGFR gene are among the most important inducers of lung tumor development, but success of personalized therapies is still limited because of toxicity or developing resistances. We expressed constitutively active EGFR (EGFRCA) exclusively in the airway system of Drosophila melanogaster and performed comprehensive phenotyping. Ectopic expression of EGFRCA induced massive hyper- and metaplasia, leading to early death....
Molecular Cancer Therapeutics current issue
10:05
Aberrant Expression of ERG Promotes Resistance to Combined PI3K and AR Pathway Inhibition through Maintenance of AR Target Genes
On the basis of our previous work defining the molecular rationale for combined targeting of the PI3K and AR pathways in PTEN loss prostate cancer, the first clinical trial was recently reported demonstrating a significant benefit for combination therapy in patients with metastatic prostate cancer. In this phase II trial, loss of PTEN was a biomarker predictive of response to combined AKT and AR inhibition. Given that PTEN loss prostate cancers are significantly enriched for ERG genomic rearrangements,...
Molecular Cancer Therapeutics current issue
10:05
Mechanisms of Resistance to EGFR Inhibition Reveal Metabolic Vulnerabilities in Human GBM
Amplification of the epidermal growth factor receptor gene (EGFR) represents one of the most commonly observed genetic lesions in glioblastoma (GBM); however, therapies targeting this signaling pathway have failed clinically. Here, using human tumors, primary patient-derived xenografts (PDX), and a murine model for GBM, we demonstrate that EGFR inhibition leads to increased invasion of tumor cells. Further, EGFR inhibitor–treated GBM demonstrates altered oxidative stress, with increased lipid peroxidation,...
Molecular Cancer Therapeutics current issue
10:05
People [News in Brief]
Paul Hudson and Christi Shaw, MBA, are highlighted.
Cancer Discovery current issue
10:05
Call Made to Speed Cell-Therapy Development [News in Brief]
A recently released white paper calls for updating FDA regulations around the development of cell therapies. The authors suggest changing the investigational new drug pathway exploratory trials, including easing manufacturing requirements for early studies and allowing for greater flexibility to revise protocols as studies progress.
Cancer Discovery current issue
10:05
In This Issue [In This Issue]
Cancer Discovery current issue
10:05
New Center Takes Aim at Resistance [News in Brief]
The Institute of Cancer Research in London recently announced the launch of a center that will bring together drug developers and evolutionary biologists to tackle drug resistance. Research at the center will focus on designing better combination strategies for existing cancer therapies based on how tumors evolve, and developing new drugs that target the evolution of cancer.
Cancer Discovery current issue
10:05
CAR T Cells: Hitting the Pause Button [News in Brief]
Researchers have shown, preclinically, that the small-molecule inhibitor dasatinib can temporarily halt the action of chimeric antigen receptor (CAR) T cells without compromising therapeutic efficacy. Dasatinib's effects are reversible upon drug removal, and the hope is that this strategy could be used to mitigate cytokine release syndrome, a serious side effect of CAR T-cell therapy.
Cancer Discovery current issue
10:05
TCR Gene Therapy Improves AML Prognosis [News in Brief]
T cells engineered to express a receptor specific for Wilms tumor antigen 1 helped prevent relapse in a small trial of patients with acute myeloid leukemia who had received an allogeneic stem-cell transplant.
Cancer Discovery current issue
10:05
Immune Checkpoint Blockade Enhances Shared Neoantigen-Induced T-cell Immunity Directed against Mutated Calreticulin in Myeloproliferative Neoplasms [Research Articles]
Somatic frameshift mutations in the calreticulin (CALR) gene are key drivers of cellular transformation in myeloproliferative neoplasms (MPN). All patients carrying these mutations (CALR+ MPN) share an identical sequence in the C-terminus of the mutated CALR protein (mut-CALR), with the potential for utility as a shared neoantigen. Here, we demonstrate that although a subset of patients with CALR+ MPN develop specific T-cell responses against the mut-CALR C-terminus, PD-1 or CTLA4 expression abrogates...
Cancer Discovery current issue
10:05
Loss of EZH2 Reprograms BCAA Metabolism to Drive Leukemic Transformation [Research Articles]
Epigenetic gene regulation and metabolism are highly intertwined, yet little is known about whether altered epigenetics influence cellular metabolism during cancer progression. Here, we show that EZH2 and NRASG12D mutations cooperatively induce progression of myeloproliferative neoplasms to highly penetrant, transplantable, and lethal myeloid leukemias in mice. EZH1, an EZH2 homolog, is indispensable for EZH2-deficient leukemia-initiating cells and constitutes an epigenetic vulnerability. BCAT1,...
Cancer Discovery current issue
10:05
Targeting Autophagy in Cancer: Recent Advances and Future Directions [Review]
Autophagy, a multistep lysosomal degradation pathway that supports nutrient recycling and metabolic adaptation, has been implicated as a process that regulates cancer. Although autophagy induction may limit the development of tumors, evidence in mouse models demonstrates that autophagy inhibition can limit the growth of established tumors and improve response to cancer therapeutics. Certain cancer genotypes may be especially prone to autophagy inhibition. Different strategies for autophagy modulation...
Cancer Discovery current issue
10:05
Tregs Promote Protumor TAM Activity by Suppressing CD8+ T Cells [Immunology]
Tregs promote M2-like TAM activity by limiting the secretion of IFN by CD8+ T cells.
Cancer Discovery current issue
10:05
Epigenetic Control of Fatty-Acid Metabolism Sustains Glioma Stem Cells [In the Spotlight]
Summary:In this issue of Cancer Discovery, Gimple and colleagues examine superenhancers in glioblastoma and glioma stem cells (GSC), identifying one which promotes expression of ELOVL2, an enzyme in polyunsaturated fatty acid (PUFA) synthesis. They find that ELOVL2 products help maintain cell membrane organization and EGFR signaling in GSCs, and that targeting PUFA metabolism along with EGFR offers a potential novel therapeutic strategy for glioblastoma. See related article by Gimple et al., p....
Cancer Discovery current issue
10:05
Amph-Ligand Vaccine Enhances CAR-T Cell Activity against Solid Tumors [Immunotherapy]
Combining CAR-T cells with amph-ligand vaccination enhances CAR-T proliferation and activation in vivo.
Cancer Discovery current issue
10:05
TNF-Pathway Proteins Modulate Tumor Susceptibility to T-cell Attack [Immunotherapy]
TRAF2 inactivation sensitizes tumor cells to T-cell elimination and increases anti–PD-1 efficacy.
Cancer Discovery current issue
10:05
Effects on Estrogen Receptor Mobility Underlie Antagonist Activity [Breast Cancer]
Estrogen receptor (ER) ligands’ antagonism is dictated by their effects on intranuclear ER mobility.
Cancer Discovery current issue
10:05
CD24 Is a "Don't Eat Me" Signal That Promotes Tumor Immune Escape [Immunotherapy]
Tumor-expressed CD24 interacts with macrophage-expressed Siglec-10 to evade immune detection.
Cancer Discovery current issue
10:05
Oxidative Stress Can Shift the Balance of Esophageal Cells [Cell Competition]
Low-dose ionizing radiation (LDIR) induces proliferation of Trp53-mutant, but not wild-type, cells.
Cancer Discovery current issue
10:05
Interferon Signaling Is Diminished with Age and Is Associated with Immune Checkpoint Blockade Efficacy in Triple-Negative Breast Cancer [Research Articles]
Immune checkpoint blockade (ICB) therapy, which targets T cell–inhibitory receptors, has revolutionized cancer treatment. Among the breast cancer subtypes, evaluation of ICB has been of greatest interest in triple-negative breast cancer (TNBC) due to its immunogenicity, as evidenced by the presence of tumor-infiltrating lymphocytes and elevated PD-L1 expression relative to other subtypes. TNBC incidence is equally distributed across the age spectrum, affecting 10% to 15% of women in all age groups....
Cancer Discovery current issue
10:05
ICB Response Is Associated with Pretreatment STAT1 Activation [Immunotherapy]
ICB response in mice could be predicted by pretreatment Stat1 expression and depended on NK cells.
Cancer Discovery current issue
10:05
Unconventional T Cells in the Pancreatic Tumor Microenvironment: Thinking Outside the Box [In the Spotlight]
Summary:Unlike conventional MHC-reactive T cells, unconventional T cells have emerged as an abundant component of the human immune system because of their role in tumor immunology. In this issue of Cancer Discovery, Hundeyin and colleagues have identified a population of unconventional T cells in pancreatic tumors that can reprogram the immune evasive components of the tumor to promote immunogenicity and thus are critical for the development of novel cell-based therapy in pancreatic cancer. See...
Cancer Discovery current issue
10:05
Noted [News in Brief]
A collection of recently published news items.
Cancer Discovery current issue
10:05
AML Differentiation Plasticity May Contribute to Relapse [Leukemia]
Differentiated AML-derived cells are able to revert into leukemogenic states.
Cancer Discovery current issue
10:05

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