Design and Characterization of a Micro RNA-200c Detecting Broccoli Fluorescent Light-up Aptamer.

In the last decade the important role of small non-coding RNAs such as micro RNAs (miRs) in gene regulation in healthy and disease states became more and more evident. The miR-200-family of miRs has been shown to play a critical role in many diseases such as cancer and neurodegenerative disorders and could be potentially important for diagnosis and treatment. However, the size of miRs of about ~21-23 nt provide challenges for their investigation.

Cellular EMT-status governs contact guidance in an electrospun TACS-mimicking model.

In this study, an advanced nanofiber breast cancer model was developed and systematically characterized including physico-chemical, cell-biological and biophysical parameters. Using electrospinning, the architecture of tumor-associated collagen signatures (TACS5 and TACS6) was mimicked. By employing a rotating cylinder or static plate collector set-up, aligned fibers (TACS5-like structures) and randomly orientated fibers (TACS6-like structures) fibers were produced, respectively.

CDK5 interacts with MST2 and modulates the Hippo signalling pathway.

MST2 (STK3) is a major upstream kinase in the Hippo signalling pathway, an evolutionary conserved pathway in regulation of organ size, self-renewal and tissue homeostasis. Its downstream effectors are the transcriptional regulators YAP and TAZ. This pathway is regulated by a variety of factors, such as substrate stiffness or cell-cell contacts.

Distinct regulation of Tau Monomer and aggregate uptake and intracellular accumulation in human neurons.

Background: The prion-like spreading of Tau pathology is the leading cause of disease progression in various tauopathies. A critical step in propagating pathologic Tau in the brain is the transport from the extracellular environment and accumulation inside naïve neurons. Current research indicates that human neurons internalize both the physiological extracellular Tau (eTau) monomers and the pathological eTau aggregates.

Unraveling the metastasis-preventing effect of miR-200c in vitro and in vivo.

Advanced breast cancer, as well as ineffective treatments leading to surviving cancer cells, can result in the dissemination of these malignant cells from the primary tumor to distant organs. Recent research has shown that microRNA 200c (miR-200c) can hamper certain steps of the invasion-metastasis cascade. However, it is still unclear whether miR-200c expression alone is sufficient to prevent breast cancer cells from metastasis formation.