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: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Poly(ethylene-co-acrylic acid) (PE-co-AA) fibers in sizes of 200-500 nm were prepared by using a novel melt-extrusion-extraction fabrication process. The thermoplastic nanofibers could be controllably dispersed and reassembled by a novel solvent exchange filtration method. The dispersed PE-co-AA nanofibers possess active surface areas and could directly conduct chemical reactions on surfaces. Surface modifications and organic synthesis on the nanofibers were proven effective and controllable after the dispersion. Multistep synthesis of biomolecules, such as peptide ligand HWRGWV against Fc portion of human IgG, was successful. The surface-anchored ligand has shown bioactivity through selective binding to and staining by human IgG-alkaline phosphatase conjugate. Another peptide, LXY3, a selective cyclic peptide ligand against alpha3beta1 integrin of MDA-MB-231 breast cancer cells, was also prepared on the surfaces of the dispersed nanofibers. The results showed that MDA-MB-231 cells were able to specifically bind to and grow on surfaces of the nanofibers that were functionalized with LXY3.
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PMID:Novel poly(ethylene-co-acrylic acid) nanofibrous biomaterials for peptide synthesis and biomedical applications. 2059 24

Poly(ethylene oxide-co-glycidol) (poly(EO-co-Gly)), a member of polyether polyol (PEP), resembles polyethylene glycol (PEG) in the polymer backbone but distinguishes itself by having multiple pendent groups along the main chain. We showed that this new bioconjugation material is biocompatible by its lack of toxicity on fibroblast cell growth, inactivity in hemolysis, and the absence of side effects after injection in mice. The usefulness of poly(EO-co-Gly) as a polymeric drug carrier was demonstrated via the preparation and characterization of a new anticancer polymer-drug conjugate, poly(EO-co-Gly)-platinate. The drug loading was 9.1-12.6% (cisplatin/conjugate w/w), at least four times higher than a PEG conjugate of similar molecular weight. The aqueous solubility of cisplatin was increased by around 10 folds after conjugation. Platinum complexes were released from the conjugate in a sustained manner over 2 days. The release of active drugs was confirmed by the antitumor activity of poly(EO-co-Gly)-platinate in vitro against HONE-1 (human nasopharyngeal carcinoma) and MCF-7 (human breast cancer), albeit at a potency lower than free cisplatin. Poly(EO-co-Gly)-platinate improved the therapeutic index of cisplatin in vivo. The conjugate had a similar antitumor activity as free cisplatin in nude mice bearing HONE-1 xenografts, and achieved 52% inhibition of tumor growth at the conclusion of the study. While free cisplatin injection caused a severe loss in body weight (>20%), poly(EO-co-Gly)-platinate resulted in mild side effects. These findings support that poly(EO-co-Gly) is a suitable drug carrier.
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PMID:Synthesis, characterization, and in vivo evaluation of poly(ethylene oxide-co-glycidol)-platinate conjugate. 2070 70

This Review outlines the understanding and management of triple-negative breast cancer (TNBC). TNBC shares morphological and genetic abnormalities with basal-like breast cancer (BLBC), a subgroup of breast cancer defined by gene-expression profiling. However, TNBC and BLBC tumors are heterogeneous and overlap is incomplete. Breast cancers found in BRCA1 mutation carriers are also frequently triple negative and basal like. TNBC and BLBC occur most frequently in young women, especially African Americans, and tend to exhibit aggressive, metastatic behavior. These tumors respond to conventional chemotherapy but relapse more frequently than hormone receptor-positive, luminal subtypes and have a worse prognosis. New systemic therapies are urgently needed as most patients with TNBC and/or BLBC relapse with distant metastases, and hormonal therapies and HER2-targeted agents are ineffective in this group of tumors. Poly (ADP-ribose) polymerase inhibitors, angiogenesis inhibitors, EGFR-targeted agents, and src kinase and mTOR inhibitors are among the therapeutic agents being actively investigated in clinical trials in patients with TNBC and/or BRCA1-associated tumors. Increased understanding of the genetic abnormalities involved in the pathogenesis of TNBC, BLBC and BRCA1-associated tumors is opening up new therapeutic possibilities for these hard-to-treat breast cancers.
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PMID:Triple-negative breast cancer: disease entity or title of convenience? 2087 96

Triple-negative [estrogen receptor (ER)-/progesterone receptor (PR)-/HER2-] breast cancers account for ~15% of overall breast cancers. Triple-negative breast cancers demonstrate a panel of specific molecular alterations including a high rate of p53 mutations, frequent loss of function of BRCA1, phosphatase and tensin homolog (PTEN) loss and a specific panel of tyrosine kinase activation [fibroblast growth factor receptor 2 (FGFR2)]. This molecular entity is considered as sensitive to chemotherapy in the adjuvant setting. When metastatic, the disease is usually aggressive and drug resistant, leading to cancer death within 18 months for the majority of patients. There is no evidence from randomized trials that triple-negative breast cancers have a different sensitivity to specific chemotherapy compared with other molecular classes. Similar findings have been reported for bevacizumab. Several recent research efforts have focused on this entity in the last few years. DNA alkylating agents have shown promising activity in the neoadjuvant setting, but no evidence from a phase III trial currently supports its use. Several targeted therapies are also being successfully developed. Poly(ADP ribose) polymerase 1 (PARP1) inhibitors induce tumor response as a single agent in BRCA1-mutated breast cancer, and could sensitize cisplatin in the whole triple negative population. Several other targeted agents are being developed in this setting, including epidermal growth factor receptor (EGFR), FGFR2, mammalian target of rapamycin (mTOR) and NOTCH inhibitors.
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PMID:Treatment of triple-negative metastatic breast cancer: toward individualized targeted treatments or chemosensitization? 2094 32

The discovery of a targeted therapeutic compound along with its companion predictive biomarker is a major goal of clinical development for a personalized anticancer therapy to date. Here we present evidence of the predictive value of TLR3 expression by tumor cells for the efficacy of Poly (A:U) dsRNA in 194 breast cancer patients enrolled in a randomized clinical trial. Adjuvant treatment with double-stranded RNA (dsRNA) was associated with a significant decrease in the risk of metastatic relapse in TLR3 positive but not in TLR3-negative breast cancers. Moreover, we show the functional relevance of TLR3 expression by human tumor cells for the antitumor effects mediated by dsRNA in several preclinical mouse models carried out in immunocompromised animals. These 2 independent lines of evidence relied upon the generation of a novel tool, an anti-TLR3 antibody (40F9.6) validated for routine detection of TLR3 expression on paraffin-embedded tissues. Altogether, these data suggest that dsRNA mediates its therapeutic effect through TLR3 expressed on tumor cells, and could therefore represent an effective targeted treatment in patients with TLR3-positive cancers.
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PMID:TLR3 as a biomarker for the therapeutic efficacy of double-stranded RNA in breast cancer. 2134 93

Apoptosis plays an important role in development, growth, differentiation, altered gravity conditions, tissue homeostasis, immune defense, and cancer. It can be initiated by external signals via death receptors, but may also emerge from mitochondria. Today most of the key players in cellular apoptosis regulation are identified and can be targeted by therapeutic strategies. In this review we focus on recent development of drugs, which interfere with apoptosis and are currently used or tested for treatment of breast cancer. These novel agents include those targeting the extrinsic pathway such as Fas, tumor necrosis factor-alpha and tumor necrosis factor related apoptosis-inducing ligand, as well as drugs targeting the intrinsic Bcl-2 family pathway, or drugs inhibiting repair enzymes such as Poly (ADP-ribose) polymerase (PARP) inhibitors. Their function will be explained, their role in tumor biology and actual clinical studies will be discussed.
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PMID:Drugs interfering with apoptosis in breast cancer. 2134 28

Cytotoxic agents are significantly active in breast cancer cells, but their usefulness has been limited in treating metastatic breast cancer (MBC). This has facilitated the development of an approach using molecular-targeted agents. Intrinsic subtypes including luminal A, luminal B, human epidermal growth factor receptor type 2 (HER2)-enriched, basal-like, and claudin-low tumors exhibit original drug responsiveness and clinical prognosis. Anti-HER2 treatments, trastuzumab or lapatinib, have demonstrated clinically significant efficacy. Poly ADP-ribose polymerase-1 inhibitors act against BRCA1-disabled breast cancer. Cancer stem cells could be the major obstacle to achieving a cure in systemic treatment. Extensive investigations are underway to develop novel agents that act on the genes or signaling of Hedgehog, Wnt, and Notch, which regulate cancer stem cells. Cancer cells undergo epithelial-mesenchymal transition (EMT) and acquire invasive properties. Breast cancer cells alter their phenotype in blood and bone marrow, e.g., circulating tumor cells or disseminated tumor cells. Cancer stem cells, like normal stem cells, may exist at niches in bone marrow. To achieve a cure for MBC, it is necessary to disrupt cancer stem cell-niche interactions or eradicate cancer stem cells. Traditional treatments with cytotoxic or endocrine agents require development in relation to intrinsic subtypes, stem cells, or EMT.
Breast Cancer 2012 Jul
PMID:Eradication of breast cancer cells in patients with distant metastasis: the finishing touches? 2152 26

The Partner and Localizer of BRCA2 (PALB2) protein has been linked to Fanconi anemia and breast cancer predisposition. Here we present data of a comprehensive mutation screening of the PALB2 gene in 818 familial cases of breast cancer from Germany. By analyzing the entire coding region of PALB2, we found seven truncating mutations (six of them novel) in families tested negative for BRCA1/2-mutations. In addition, two novel potentially disease causing missense mutations were found. Remarkably, only one mutation reported previously in other populations, was also identified in the German population. No PALB2 mutation carriers were identified in 450 unaffected controls. Thus, our observations indicate a low prevalence of deleterious PALB2 mutations and a specific mutation profile within the German population. As PALB2-deficient tumors were shown to be sensitive to Poly(ADP-ribose) Polymerase (PARP) inhibitors, our study has implications for newly developed, favorable treatment options in familial breast cancer.
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PMID:Germline mutations in the PALB2 gene are population specific and occur with low frequencies in familial breast cancer. 2161 43

In recent years, there has been a significant improvement in the understanding of molecular events and critical pathways involved in breast cancer. This has led to the identification of novel targets and development of anticancer therapies referred to as targeted therapy. Targeted therapy has high specificity for the molecules involved in key molecular events that are responsible for cancer phenotype such as cell growth, survival, migration, invasion, metastasis, apoptosis, cell-cycle progression, and angiogenesis. Targeted agents that have been approved for breast cancer include trastuzumab and lapatinib, directed against human epidermal growth factor receptor 2 (HER2) and bevacizumab, directed against vascular endothelial growth factor (VEGF). Several other targeted agents currently under evaluation in preclinical and clinical trials include inhibitors of epidermal growth factor receptor (EGFR), dual EGFR and HER2 inhibitors, VEGF/VEGFR inhibitors, and agents that interfere with crucial signaling pathways such as PI3K/AKT/mTOR and RAS/MEK/ERK; agents against other tyrosine kinases such as Src, insulin-like growth factor (IGF)/IGF-receptor (IGFR); agents that promote apoptosis such as Poly ADP ribose polymerase inhibitors; agents that target invasion and metastasis such as matrix metalloproteinases inhibitors and others. In this review, we highlight the most promising targeted agents and their combination with mainstream chemotherapeutic drugs in clinical trials.
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PMID:Promising molecular targeted therapies in breast cancer. 2171 84

Over the last 35 years, classical CMF (combination chemotherapy with cyclophosphamide, methotrexate and fluorouracil) has been a milestone in the adjuvant treatment of women with breast cancer. However, after an early burst of success lasted just over 10 years, classical CMF has been supplanted by 'third-generation' regimens containing taxanes and anthracyclines. Questions have been raised in the past years concerning the true effectiveness of adjuvant CMF for specific subgroups of patients and particularly, recent retrospective data support the fact that the CMF might have a role in the treatment of patients with triple-negative breast cancer. One possible justification for supporting this role of CMF may be sought in the mechanism of action of drugs used in the regimen, as triple-negative cells may be sensitive to alkylating agents that cause double-strand breaks in DNA. The lesson learned from the CMF could lead us to identify new combinations of drugs that could include the optimal chemotherapy backbone for triple-negative breast cancer such as platinum compounds or alkylating agents or Poly (ADP-ribose) polymerase inhibitors. In conclusion, although we have learned a lot from the use of CMF, many questions are still open and hopefully stimulate our thinking, as clinicians, leading us to find new and more effective ways to treat breast cancer.
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PMID:CMF revisited in the 21st century. 2171 66


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