Amplification and overexpression of the receptor tyrosine kinase ErbB2 occur in up to 30% of human breast cancers, and high ErbB2 levels are correlated with poor prognosis for breast cancer patients. In contrast to the epithelial growth factor receptor (ErbB1), ErbB2 is not downregulated by ligand-induced mechanisms. Here we show that flotillins are involved in the stabilization of ErbB2 at the plasma membrane. In SKBR3 breast cancer cells and breast cancer tissue, a positive correlation between flotillin and ErbB2 expression levels could be demonstrated. Moreover, the tissue microarray analyses of biopsies from 194 patients diagnosed with carcinomas of the breast showed that flotillin-2 emerged as a potential predictor of prognosis in breast cancer. Depletion of flotillin-1 and flotillin-2 leads to internalization and degradation of ErbB2. Furthermore, flotillin-1 and -2 were found to be in a molecular complex with ErbB2 and Hsp90. The depletion of one of these proteins results in disruption of this complex, followed by destabilization of ErbB2 at the membrane, and its internalization and degradation. As a consequence, ErbB2-triggered downstream signalling is inhibited. Our data demonstrate a novel mechanism for interfering with ErbB2 signalling, which potentially can have clinical impact.
Polymeric nanoparticles can be conjugated with targeting ligand such as folate to elicit oral colon-specific drug delivery to treat colon cancer. Oral chemotherapy can be used as adjuvant, neo-adjuvant, or primary therapy. Nonetheless, oral cancer chemotherapeutics may experience premature drug release at the upper gastrointestinal tract due to the availability of a large specific dissolution surface area of nanoparticles leading to failure in colon cancer targeting. This study designed soft microagglomerates as carrier of nanoparticles to delay drug release. High molecular weight chitosan/pectin with covalent 5-fluorouracil/folate was processed into nanoparticles. Low molecular weight chitosan was spray-dried into nanoparticle aggregation vehicle. The soft agglomerates were produced by blending of nanoparticles and aggregation vehicle in specific weight ratios through vortex method. Adding aggregation vehicle promoted soft agglomeration with nanoparticles deposited onto its surfaces with minimal binary coalescence. Soft agglomerates prepared from 10:18 weight ratio of nanoparticles to nanoparticle aggregation vehicle using 1% chitosan solution concentration reduced the propensity of premature drug release of nanoparticles in the upper gastrointestinal region. Soft agglomerates reduced early drug release of cancer chemotherapeutics and was responsive to intracapsular sodium alginate coat to further sustain drug release. The soft microagglomerates are a viable dosage form in colon-specific drug delivery. Further study will focus on investigating intracapsular-coated soft agglomerates in vivo pharmacokinetics and pharmacodynamics behaviours with respect to local colorectal cancer.
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