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  • The miR-491-3p/mTORC2/FOXO1 regulatory loop modulates chemo-sensitivity in human tongue cancer. 25749387

    We found that levels of miR-491-3p were decreased in multidrug-resistant tongue cancer (TC) cells. Induction of miR-491-3p expression sensitized TC cells to chemotherapy. In agreement, functional inhibition of miR-491-3p enhanced resistance of TC cells to chemotherapy. We found that miR-491-3p directly targeted mTORC2 component Rictor and inhibited mTORC2 activity, which was increased in resistant TC cells with high p-Akt(Ser473), p-SGK1(Ser422) and p-FOXO1(Thr24) levels. Inhibition of mTORC2 activity via either Rictor knockdown or mTOR inhibitor in turn sensitized TC cells to chemotherapy. In agreement, overexpression of Rictor increased the mTORC2 activity and induced resistance of TC cells to chemotherapy. As a feedback loop, mTORC2 downregulated miR-491-3p expression by inactivating FOXO1, which otherwise would transcriptionally induce miR-491-3p expression. Levels of miR-491-3 and Rictor or mTORC2 activity negatively correlated in TC tissues. Finally, low levels of miR-491-3p and highly expressed Rictor were associated with poor prognosis in tongue cancer patients. These data provide a rationale for targeted intervention on miR-491-3p/mTORC2 axis to enhance the efficacy of chemotherapy against tongue cancer.
    Document Type:
    Reference
    Product Catalog Number:
    17-371
    Product Catalog Name:
    EZ-ChIP™

  • A postsynaptic transient K(+) current modulated by arachidonic acid regulates synaptic integration and threshold for LTP induction in hippocampal pyramidal cells. 12114547

    Voltage-gated ion channels in the dendrites and somata of central neurons can modulate the impact of synaptic inputs. One of the ionic currents contributing to such modulation is the fast inactivating A-type potassium current (I(A)). We have investigated the role of I(A) in synaptic integration in rat CA1 pyramidal cells by using arachidonic acid (AA) and heteropodatoxin-3 (HpTX3), a selective blocker of the Kv4 channels underlying much of the somatodendritic I(A). AA and HpTX3 each reduced I(A) by 60-70% (measured at the soma) and strongly enhanced the amplitude and summation of excitatory postsynaptic responses, thus facilitating action potential discharges. HpTX3 also reduced the threshold for induction of long-term potentiation. We conclude that the postsynaptic I(A) is activated during synaptic depolarizations and effectively regulates the somatodendritic integration of high-frequency trains of synaptic input. AA, which can be released by such input, enhances synaptic efficacy by suppressing I(A), which could play an important role in frequency-dependent synaptic plasticity in the hippocampus.
    Document Type:
    Reference
    Product Catalog Number:
    07-491

  • Anti-Kv4.2 - 24573

    Document Type:
    Certificate of Analysis
    Lot Number:
    24573
    Product Catalog Number:
    07-491