Identification of Disulfiram as a Potential Therapeutic for RB1 -proficient and -deficient Triple Negative Breast Cancer

Robinson, Tyler

18 June 2014

Triple negative breast cancer (TNBC) represents an aggressive subtype for which only chemotherapy is available. The RB1 tumour suppressor is frequently lost in human breast cancer, primarily in TNBC. Loss of RB1 deregulates the cell cycle and is thought to affect BC response to endocrine, radiation, and chemotherapy. However, the global chemosensitivity of Rb null BC is not known. Here I demonstrate that RB1-deficient TNBC cells are highly sensitive to radiation, and moderately sensitive to doxorubicin and methotrexate. However, loss of RB1 does not increase sensitivity to multiple other drugs. Moreover, a non-biased screen of 2 RB-deficient versus 2 RB-proficient lines with ~3500 drugs did not reveal any difference in sensitivity, but identified disulfiram as a potent drug, which compared favourably with current chemotherapeutics against TNBC. Disulfiram’s efficacy was validated against 13 human TNBC lines with an average IC50 of 300nM. IQGAP1 was identified as a potential target of disulfiram.

triple negative breast cancer

chemotherapy

retinoblastoma protein

disulfiram

role of RB1 during chemotherapy

IQGAP1

0306

0307

0379

An electrophoretic study of fetal mouse brain proteins after in vivo exposure to phenytoin and disulfiram

Heiberg, Ludvig

January 1990

Although there have been two-dimensional electrophoretic studies on fetal brain tissue (for instance, Yoshida and Takahashi, 1980), the emphasis in most of this work has been on developmental changes in protein expression, and not on the effects that drugs have on fetal brain protein complement. Klose and co-workers (1977) did an early study using two-dimensional gel electrophoresis to determine the effects of various teratogens on whole embryos. No protein changes were found and that line of research was not continued. In this study two-dimensional gel electrophoresis is extensively used, in the belief that the usefulness of this technique to experimental teratology has not been fully evaluated. It is reasonable to suppose that a central nervous system teratogen administered during critical periods of susceptibility will led to perturbations of orderly brain development, and that these perturbations will be reflected as changes to the protein complement. The total brain protein complement of mice that have been exposed to drugs in utero will therefore be analysed, in the hope that any inductions or deletions of proteins as a result of drug exposure may provide a clue to the molecular events underlying drug injury to the fetus.

Disulfiram - Toxicology

Phenytoin - Toxicology

Fetus - Effect of drugs on

Teratogenic agents

Disulfiram - Toxicology

Phenytoin - toxicity

Fetal proteins - drug effects

Fetus - Drug effects

Tera

The short-term effects of disulfiram (Antabuse) treatment on nutritional status and blood cholesterol levels in abstaining alcoholics

Aiken, Emmalyn Bault.

January 1985

Call number: LD2668 .T4 1985 A37 / Master of Science

Alcoholics--Rehabilitation.

Blood cholesterol.

Masters theses

Disulfiram overcomes bortezomib and cytarabine resistance in Down-syndrome-associated acute myeloid leukemia cells

Bista, Ranjan, Lee, David W., Pepper, Oliver B., Azorsa, David O., Arceci, Robert J., Aleem, Eiman

01 February 2017

Background: Children with Down syndrome (DS) have increased risk for developing AML (DS-AMKL), and they usually experience severe therapy-related toxicities compared to non DS-AMKL. Refractory/ relapsed disease has very poor outcome, and patients would benefit from novel, less toxic, therapeutic strategies that overcome resistance. Relapse/resistance are linked to cancer stem cells with high aldehyde dehydrogenase (ALDH) activity. The purpose of the present work was to study less toxic alternative therapeutic agents for relapsed/refractory DS-AMKL. Methods: Fourteen AML cell lines including the DS-AMKL CMY and CMK from relapsed/refractory AML were used. Cytarabine (Ara-C), bortezomib (BTZ), disulfiram/copper (DSF/Cu2+) were evaluated for cytotoxicity, depletion of ALDH-positive cells, and resistance. BTZ-resistant CMY and CMK variants were generated by continuous BTZ treatment. Cell viability was assessed using CellTiter-Glo((R)), ALDH activity by ALDELUOR(TM), and proteasome inhibition by western blot of ubiquitinated proteins and the Proteasome-Glo(TM) Chymotrypsin-Like (CT-like) assay, apoptosis by Annexin V Fluos/Propidium iodide staining, and mutations were detected using PCR, cloning and sequencing. Results: Ara-C-resistant AML cell lines were sensitive to BTZ and DSF/Cu2+. The Ara-C-resistant DS-AMKL CMY cells had a high percentage of ALDHbright "stem-like" populations that may underlie Ara-C resistance. One percent of these cells were still resistant to BTZ but sensitive to DSF/Cu2+. To understand the mechanism of BTZ resistance, BTZ resistant (CMY-BR) and (CMK-BR) were generated. A novel mutation PSMB5 Q62P underlied BTZ resistance, and was associated with an overexpression of the beta 5 proteasome subunit. BTZ-resistance conferred increased resistance toAra-C due to G1 arrest in the CMY-BR cells, which protected the cells from S-phase damage by Ara-C. CMY-BR and CMK-BR cells were cross-resistant to CFZ and MG-132 but sensitive to DSF/Cu2+. In this setting, DSF/Cu2+ induced apoptosis and proteasome inhibition independent of CT-like activity inhibition. Conclusions: We provide evidence that DSF/Cu2+ overcomes Ara-C and BTZ resistance in cell lines from DS-AMKL patients. A novel mutation underlying BTZ resistance was detected that may identify BTZ-resistant patients, who may not benefit from treatment with CFZ or Ara-C, but may be responsive to DSF/Cu2+. Our findings support the clinical development of DSF/Cu2+ as a less toxic efficacious treatment approach in patients with relapsed/refractory DS-AMKL.

Relapsed acute myeloid leukemia

Down syndrome-associated AML

Chemoresistance

Disulfiram

Bortezomib

Cytarabine

ALDH

Investigation of the anticancer activity and molecular mechanisms of Disulfiram in Glioblastoma Multiforme

Kannappan, Vinodh

January 2015

Glioblastoma Multiforme (GBM) is the most common lethal brain tumour associated with dismal survival rate. GBM is considered to be an incurable malignancy as these tumours evade all intricate attempts of therapy and no contemporary chemotherapeutic regimen is effective. Although the existence of cancer stem cells (CSCs) is still debatable, it is widely accepted that GBM has a small population of cells expressing CSC markers (~1%) that are highly resistant to chemo-radiation therapy. Recent evidence indicates that hypoxia induces cancer stem cell (CSC) phenotypes via epithelial-to-mesenchymal transition (EMT) that promote therapeutic resistance in solid tumours. Given that GBMs are extensively hypooxygenated heterogenous tumours, understanding the molecular relationship between hypoxia, biology of CSCs, EMT and chemoresistance would be invaluable for development of drugs that can target CSCs. Evidence suggests that hypoxia inducible factors (HIFs), NF-B and aldehyde dehydrogenase (ALDH) together orchestrate the stemness and chemoresistance in hypoxia induced CSCs. But the insights on the mechanisms still remain obscure. In this study we used an in vitro GBM CSC and hypoxia model along with NF-B-p65 and HIF transfected GBM cell lines to investigate the relationship between HIFs, NF-B activation and ALDH activity and their role in chemoresistance. The findings of this study demonstrated that GBM cells grown as spheres consist of a vast proportion of hypoxic cells with elevated CSC and EMT markers suggesting hypoxia induced EMT. GBM-CSCs are chemoresistant and displayed increased levels of HIFs, NF-B and ALDH activity. It was also observed that stable transfection of GBM cells with NF-B-p65 or HIFs induced CSC and EMT markers indicating their essential role in maintaining CSC phenotypes. The study also highlighted the importance of NF-B and ALDH in driving chemoresistance and the potential role of NF-B as the master regulator of hypoxia induced stemness in GBM cells. In this study, we used Disulfiram (DS), an anti-alcoholism drug, in combination with copper (Cu) to target the hypoxia-NF-B axis and inhibit ALDH activity to reverse chemoresistance in GBM CSCs. We showed that DS/Cu is cytotoxic to GBM cells and completely eradicated the resistant CSC population at low nanomolar levels in vitro. We also demonstrated that DS/Cu effectively inhibited GBM in vivo using newly formulated PLGA-DS nanoparticles. DS is an FDA approved drug with low/no toxicity to normal tissues and can freely pass through the blood brain barrier (BBB). Further study may lead to quick translation of DS into clinical trials.

616.99

Therapieprozess- und Ergebnisforschung in der Ambulanten Langzeit-Intensivtherapie für Alkoholkranke (ALITA) / Therapy process and outcome research on the Outpatient Longterm Intensive Therapy for Alcoholics (OLITA)

Stawicki, Sabina

02 May 2007

No description available.

150 Psychologie

Mathematics and Computer Science

Alkoholabhängigkeit

ambulante Alkoholismustherapie

Alkoholaversiva

Disulfiram

Calciumcarbimid

Psychotherapie der Alkoholabhängigkeit

HAQ

Helping Alliance Questionnaire

Therapieprozess-Forschung

Veränderungsprozesse

Verhaltensbeobachtung

Alcohol dependence

outpatient alcoholism treatment

alcohol deterrents

disulfiram

calcium carbimide

psychotherapy of alcohol dependence

HAQ

Helping Alliance Questionnaire

therapy process research

processes of change

behavior observation

77.70

77.71

77.75

77.74

77.82

FH 000: Klinische Psychologie