Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genasense (formerly known as G-3139), an antisense oligonucleotide specific for Bcl-2, is under development by Genta as an iv drip infusion for the potential treatment of various cancers including melanoma, prostate, breast and colon cancer [3083751. It is in phase III trials for malignant melanoma, for which it has been awarded Fast Track status 1359044]. Genasense received Orphan Drug status in August 2000 [3782331. In September 2000, the company announced that pivotal phase III trials in multiple melanoma, chronic lymphocytic leukemia (CLL) and acute myelocytic leukemia (AML) would be underway by 2001 [382783]. By January 2001, trials in AML and CLL had been initiated 1396512]. As of February 2001, Genta was planning the initiation of two additional, registration quality trials. Pending positive results from these trials, launch of Genasense is anticipated in 2002 13984111. A phase III trial in patients with advanced multiple myeloma at 65 centers in the US, Canada and Great Britain began in February 2001. The trial will examine whether the addition of Genasense can improve response rates, response duration and quality of life compared with dexamethasone therapy alone 13989081. Genta Inc has been issued a patent (US-05831066) for Genasense 1283005]. The patent provides protection to Genta for the composition of Genasense and its analogs. Furthermore, Genta Inc has also been issued two new patents that cover a series of compounds containing new backbone constructions that enhance the antisense affinity of the drug to the target pre-RNA, while the other patent covers the methods for preparation of antisense oligonucleotides containing the new backbone structures 12896851. Genta has already licensed the rights for the use of Bd-2 as a target for antisense- and gene therapy-based treatments from The University of Pennsylvania. The licensing agreements with Chugai Pharmaceutical Co for worldwide marketing and profit sharing places Genta in a favorable position. In January 2001, Needham & Co expected Genasense to have a potential market of 47,700 malignant melanoma patients in the US. The analysts also expected potential patient market sizes of 50,000 (CLL), 21,000 (AML), 136,000 (non-small cell lung cancer; NSLCC) and 180,000 (prostate cancer) in the US. In addition, the analysts predicted that Genasense would be approved for melanoma in the second quarter of 2002, with approvals to follow for CLL (third quarter of 2002), AML (third quarter of 2002) and myeloma (fourth quarter of 2002) 1399251].
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PMID:Genasense (Genta Inc). 1156 20

The components of the apoptotic program are targets for anticancer therapy. Bcl-2 protein inhibits apoptosis and confers resistance to treatment with traditional cytotoxic chemotherapy, radiotherapy, and monoclonal antibodies (mAb). Oblimersen sodium (G3139, Genasense, Genta Inc., Berkeley Heights, NJ) is an antisense oligonucleotide (AS-ON) compound designed to specifically bind to the first 6 codons of the human bcl-2 mRNA sequence, resulting in degradation of bcl-2 mRNA and subsequent decrease in Bcl-2 protein translation. Oblimersen is the first oligonucleotide to demonstrate proof of principle of an antisense effect in human tumors by the documented downregulation of the target Bcl-2 protein. A growing body of preclinical and clinical evidence suggests that oblimersen synergizes with many cytotoxic and biologic/immunotherapeutic agents against a variety of hematologic malignancies and solid tumors. Randomized clinical trials are currently underway to evaluate the efficacy and tolerability of oblimersen in combination with cytotoxic chemotherapy in chronic lymphocytic leukemia, multiple myeloma, malignant melanoma, and non-small cell lung cancer. In addition, nonrandomized trials are under way to evaluate oblimersen in non-Hodgkin's lymphoma, acute myeloid leukemia, and hormone-refractory prostate cancer. Preclinical data also support the clinical evaluation of oblimersen in additional tumor types, including chronic myelogenous leukemia and breast, small cell lung, gastric, colon, bladder, and Merkel cell cancers. Enhancement of the efficacy of anticancer treatments with oblimersen Bcl-2 antisense therapy represents a promising new apoptosis-modulating strategy, and ongoing clinical trials will test this therapeutic approach.
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PMID:Oblimersen Bcl-2 antisense: facilitating apoptosis in anticancer treatment. 1216 2

Overexpression of Bcl-2 is a potential mechanism for chemoresistance in acute leukemia and has been associated with unfavorable clinical outcome. We hypothesized that down-regulation of Bcl-2 would restore chemosensitivity in leukemic cells. To test this hypothesis, we performed a phase 1 study of G3139 (Genasense, Genta, Berkeley Heights, NJ), an 18-mer phosphorothioate Bcl-2 antisense, with fludarabine (FL), cytarabine (ARA-C), and granulocyte colony-stimulating factor (G-CSF) (FLAG) salvage chemotherapy in patients with refractory or relapsed acute leukemia. Twenty patients with refractory or relapsed acute myeloid leukemia (AML) or acute lymphoblastic leukemia (ALL) were enrolled. G3139 was delivered by continuous infusion on days 1 to 10. FLAG chemotherapy was administered on days 5 to 10. Common side effects of this combination included fever, nausea, emesis, electrolyte imbalance, and fluid retention that were not dose limiting. Plasma pharmacokinetics of G3139 demonstrated steady-state concentration (Css) within 24 hours. Of the 20 patients, 9 (45%) had disease response, 6 (5 AML, 1 ALL) with complete remission (CR) and 3 (2 AML and 1 ALL) with no evidence of disease but failure to recover normal neutrophil and/or platelet counts or to remain in remission for at least 30 days (incomplete remission). Bcl-2 mRNA levels were down-regulated in 9 of the 12 (75%) evaluable patients. This study demonstrates that G3139 can be administered safely with FLAG chemotherapy and down-regulate its target, Bcl-2. The encouraging clinical and laboratory results justify the current plans for a phase 3 study in previously untreated high-risk AML (ie, age at least 60 years).
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PMID:Phase 1 and pharmacodynamic studies of G3139, a Bcl-2 antisense oligonucleotide, in combination with chemotherapy in refractory or relapsed acute leukemia. 1239 93

An antisense oligodeoxynucleotide (ODN) complementary to the first six codons of the Bcl-2 mRNA, G3139 (oblimersen sodium; Genasense), has been shown to downregulate Bcl-2 and produce responses in a variety of malignancies including drug-resistant lymphoma. Incubation of ex vivo purified plasma cells from patients with multiple myeloma (MM) with carboxyfluorescein (FAM)-labeled antisense ODNs resulted in a time- and dose-dependent uptake in the cytoplasm and nucleus. No major differences in uptake of Bcl-2 antisense ODNs were observed among patients' samples. Incubation of purified myeloma plasma cells with G3139, but not solvent or reverse polarity control ODNs, resulted in a reduction (>75%) of Bcl-2 mRNA levels after 2 and 4 days, as measured by Real-Time PCR. Treatment with G3139 led to a sequence-specific reduction of Bcl-2 protein levels within 4 days of exposure in 10 out of 11 clinical samples from patients with chemosensitive and multidrug-resistant disease, without significant reduction of alpha-Actin, Bax, Bcl-XL, or Mcl-1 proteins. This resulted in a significantly enhanced sensitivity of the myeloma tumor cells to dexamethasone or doxorubicin-induced apoptosis. G3139 can consistently enter myeloma cells, downregulate the expression of Bcl-2, and enhance the efficacy of myeloma therapy. These data support further clinical evaluation of G3139 therapy in multiple myeloma.
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PMID:Chemosensitization of myeloma plasma cells by an antisense-mediated downregulation of Bcl-2 protein. 1252 80

Bcl-2 is an attractive target for anticancer therapy in a number of malignancies, as its expression is associated with inhibition of the apoptotic program and resistance to traditional therapeutic agents. Bcl-2 antisense therapy with G3139 (oblimersen sodium; Genasense, Genta Inc, Berkeley Heights, NJ) is in clinical trials for a number of malignancies, including an ongoing trial in myeloma. In vitro G3139 has been shown to downregulate Bcl-2 in myeloma cells, sensitizing them to chemotherapeutic agents. We have undertaken a project to evaluate antisense inhibition strategies in Waldenstrom's macroglobulinemia (WM), and whether the Bcl-2 pathway may provide a therapeutic target in this disease. We have shown that Bcl-2 is expressed in WM cells in vitro and that downregulation of Bcl-2 may be achieved by treatment with G3139. Treatment of WM cells with G3139 is associated with increased cell death and shows potential synergy with chemotherapeutic agents active in WM. Bcl-2 downregulation via G3139 antisense treatment may have potential anticancer efficacy in WM and further studies to address its effects on clinical specimens are warranted, in anticipation of using this agent in WM clinical trials.
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PMID:Modulation of the activity of Bcl-2 in Waldenstrom's macroglobulinemia using antisense oligonucleotides. 1272 Jan 56

The components of the apoptotic pathway are targets for anticancer therapy. Bcl-2 protein inhibits apoptosis and confers resistance to treatment with traditional cytotoxic chemotherapy, radiotherapy, and monoclonal antibodies. Oblimersen sodium (G3139, Genasense, Genta Inc, Berkeley Heights, NJ) is an antisense oligonucleotide compound designed to specifically bind to the first six codons of the human bcl-2 mRNA sequence, resulting in degradation of bcl-2 mRNA and subsequent decrease in Bcl-2 protein translation. Oblimersen is the first oligonucleotide to demonstrate proof of principle of an antisense effect in human tumors by the documented downregulation of the target Bcl-2 protein. A growing body of preclinical and clinical evidence suggests that oblimersen synergizes with many cytotoxic and biologic/immunotherapeutic agents against a variety of hematologic malignancies and solid tumors. Randomized clinical trials are currently underway to evaluate the efficacy and tolerability of oblimersen in combination with cytotoxic chemotherapy in chronic lymphocytic leukemia (CLL), multiple myeloma (MM), malignant melanoma, and non-small cell lung cancer. In addition, nonrandomized trials are underway to evaluate oblimersen in non-Hodgkin's lymphoma (NHL), acute myeloid leukemia (AML), and hormone-refractory prostate cancer. Preclinical data support the clinical evaluation of oblimersen in additional tumor types, including chronic myelogenous leukemia, and breast, small cell lung, gastric, colon, bladder (CML), and Merkel cell cancers. Enhancement of the efficacy of anticancer treatments with oblimersen Bcl-2 antisense therapy represents a promising new apoptosis-modulating strategy, and ongoing clinical trials will test this therapeutic approach.
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PMID:Oblimersen sodium (G3139 Bcl-2 antisense oligonucleotide) therapy in Waldenstrom's macroglobulinemia: a targeted approach to enhance apoptosis. 1272 Jan 57

Mitochondria plays a central role in apoptotic cell death. The intermembrane space of mitochondria contains a number of soluble molecules whose release from the organelle to the cytosol or the nucleus induces cell death. Thus, molecules that directly trigger mitochondria membrane permeabilisation are efficient cytotoxic drugs. Mitochondria is one of the cellular targets for commonly used epipodophyllotoxins, adenine deoxynucleoside analogs and taxanes as well as recently developped agents such as the pentacyclic triterpene betulinic acid and the lymphotoxic agent FTY720. Most informations on anthracyclines point to the mitochondrial membrane as the main target of cardiotoxicity. Mitochondria is also a target for arsenite trioxide, an old cytotoxic agent recently used for treating acute promyelocytic leukemia, lonidamine, a dichlorinated derivative of indazole-3-carboxylic acid developped as a chemosensitizer, the retinoic acid receptor gamma activator CD437 and nitric oxide (NO). Recently, cytotoxic drugs have been specifically designed to directly affect the mitochondrial function. These include the positively charged alpha-helical peptides, which are attracted to and disrupt the negatively charged mitochondrial membrane, thus inducing mammalian cell apoptosis when targeted intracellularly. Various strategies have been proposed also to directly inhibit Bcl-2 and related anti-apoptotic proteins, including antisense oligonucleotides (e.g. Genasense, currently tested in phase III trials), small molecules that mimic the BH3 dimerization domain of these proteins and kinase inhibitors. Ligands of the mitochondrial benzodiazepine receptor such as the isoquinolone carboxamide derivative PK11195 also overcome the membrane-stabilizing effect of Bcl-2, whereas the adenosine nucleotide translocator (ANT) and the mitochondrial DNA are two other potential cellular targets for cytotoxic agents. Potentially, new compounds directly targeting the mitochondria may be useful in treating hematological malignancies. The challenge is now to selectively target these mitochondria permeabilizing agents to malignant cells. This review briefly summarizes the role of the mitochondria in cell death and describes these various strategies for targeting the mitochondria to induce apoptosis.
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PMID:Mitochondria as a target for inducing death of malignant hematopoietic cells. 1276 32

Proteins of the Bcl-2 family share one or several Bcl-2 homology (BH) regions and behave as pro- or anti-apoptotic proteins. Prosurvival members such as Bcl-2 and Bcl-X(L) are supposed to preserve mitochondrial outer membrane integrity, thus preventing the release of soluble apoptogenic molecules. Pro-apoptotic members include BH3-only proteins that act as sensors of cellular damage and initiate the death process and Bax-like proteins that act downstream of BH3-only proteins to permeabilise the mitochondrial outer membrane. Whether BH3-only proteins directly activate Bax-like proteins or prevent prosurvival members of the family from inhibiting Bax-like proteins or both remains a matter of controversy. Expression of these proteins is altered in various human tumours and this abnormal expression may contribute to oncogenesis and tumour cell resistance to anticancer drug-induced cell death. Based on these observations, prosurvival proteins are attractive intracellular targets for inducing tumour cell death or sensitising tumour cells to death induced by chemotherapeutic drugs. The use of 18-mer antisense oligonucleotides (G3139 or Genasense) targeting the first six codons of bcl-2 mRNA is currently developed in clinics with phase I studies demonstrating that thrombocytopenia may be the main dose-limiting side effect. This strategy, that efficiently decreases Bcl-2 protein expression in some tumour cells, is currently tested in phase II and phase III trials. Alternative approaches to achieve the functional knock-out of Bcl-2 include the use of either peptides mimicking the BH3 domain of Bcl-2-related proteins or more stable, non peptidic BH3 mimetics and the pharmacological modulation of the post-translational modifications of the protein.
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PMID:Bcl-2 proteins: targets and tools for chemosensitisation of tumor cells. 1276 75

The regulation of apoptosis is an important potential target for anticancer therapy. The mitochondrial Bcl-2 protein inhibits apoptosis and is therefore an important mediator of resistance to treatment with traditional cytotoxic chemotherapy, radiotherapy and monoclonal antibody therapy. Oblimersen (Genasense, Aventis Pharmaceuticals / Genta Inc) is a 18mer antisense-oligonucleotide (ASO), which specifically binds to the first 6 codons of the human bcl-2 mRNA, resulting in degradation and destruction of the mRNA by RNAse H. Subsequently there is a significant decrease of bcl-2 translation. A growing number of preclinical and clinical studies suggests that the combination of cytotoxic therapy with Oblimersen results in synergistic anticancer efficacy in many hematologic and solid tumors. Due to its low toxicity profile, oblimersen is an ideal combination partner with conventional chemotherapy. Three randomized phase-III trials (malignant melanoma, chronic lymphocytic leukemia, multiple myeloma) have recently finished recruitment. The results of these studies will be available by the end of 2003. Based on preclinical data, a lot of nonrandomized phase-II studies on several different tumor types like AML, CML, NHL, prostate cancer and breast cancer are underway. The manipulation of proapoptotic and antiapoptotic factors in favor of proapoptotic factors by inhibition of the bcl-2 protein translation in order to enhance the efficacy of anticancer treatments represents a promising new treatment concept in oncology.
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PMID:[Proapoptotic therapy with oblimersen (bcl-2 antisense oligonucleotide)--review of preclinical and clinical results]. 1471 45

Chloroquine and related anti-malarial drugs appear to promote apoptosis in T-cells by suppressing NF-kappa-B, which enhances the expression of anti-apoptotic proteins (e.g., Bcl-2). Thus, chloroquine has found applications in autoimmune diseases where it apparently facilitates apoptosis of abnormally persistent T-cell clones. The mode of action of chloroquine in prevention of malaria is not known, but it may be to minimize replication of the parasite in the liver cells, which occurs before invasion of the erythrocytes, by facilitating premature apoptosis of the infected host cells. After introduction of chloroquine in the 1950s world-wide for prophylactic use, chloroquine-resistant malaria emerged. Here it is hypothesized that concurrent with emergence of chloroquine-resistant malaria (presumably with enhanced anti-apoptotic capabilities), other intracellular parasites have evolved to enhance their ability to prevent apoptosis in host cells. Two examples of viral diseases that have emerged from areas of high incidence of chloroquine-resistant malaria are AIDS from HIV and SARS from coronavirus. The hypothesis holds that prophylactic exposure to pro-apoptotic chloroquine drugs caused natural selection for strains of viruses and other parasites that have enhanced anti-apoptotic abilities. When transmitted to host organisms that are not under the influence of the pro-apoptotic drug, the new "anti-apoptotic" strains may cause unexpected diseases. In the case of SARS, the coronavirus appears to have accessed a new niche where it proves to be lethal to its host. In the case of AIDS, the HIV (which has had a long-term symbiotic relationship with primates) has run amuck because the infected cells are now substantially more tolerant to the toxins (i.e., resistant to apoptosis) that they secrete than the uninfected bystander cells, which are not unusually resistant to apoptosis. A corollary to the hypothesis is that if the level of resistance to apoptosis in the infected cells were no higher than the level of resistance in the bystander cells, then the infected cells would preferentially kill themselves through apoptosis. It appears that in the case of HIV, the increased resistance to apoptosis is provided by expression of Bcl-2 and suppression of p53. Hence, drugs that suppresses Bcl-2 or restore p53 function might be effective in restoring the parity of resistance to apoptosis between infected and uninfected cells. Currently, an antisense drug targeting Bcl-2 (G3139/Genasense(TM), Genta, Inc.) is in late-stage cancer trials and may be on the market for those indications in months. It would be interesting to try these drugs against various intracellular parasites including HIV. This approach to prevent or eliminate active infections might be particularly attractive against a range of parasites (virus, bacteria, protozoa, fungus) when safe and effective vaccines are not available.
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PMID:Hypothesis links emergence of chloroquine-resistant malaria and other intracellular pathogens and suggests a new strategy for treatment of diseases caused by intracellular parasites. 1497 2


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