Journal Articles, BioMed Central and SpringerOpen

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Browsing Journal Articles, BioMed Central and SpringerOpen by Department "Center for Drug Discovery"

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    Antiproliferative triterpenoid saponins from Leptaulus citroides Baill. from the Madagascar rain forest
    Su, Qingxi; Brodie, Peggy J.; Liu, Yixi; Miller, James S.; Andrianjafy, Naina M.; Antsiferana, Rabodo; Rasamison, Vincent E.; Kingston, David G. I. (Springer, 2016)
    Bioassay-guided fractionation of EtOH extracts obtained from the roots and wood of the Madagascan plant Leptaulus citroides Baill. (Cardiopteridaceae) led to the isolation of ethyl esters of three new triterpenoid saponins (1–3) and the known sesquiterpenoid cinnamosmolide (4). The structures of 1–3 were elucidated by extensive 1D and 2D NMR experiments and mass spectrometry. Compounds 1, 2, and 4 showed moderate cytotoxicity against the A2780 human ovarian cancer cell line with IC50 values of 2.8, 10.2 and 2.0 lM, respectively.
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    Peripheral loss of EphA4 ameliorates TBI-induced neuroinflammation and tissue damage
    Kowalski, Elizabeth A.; Chen, Jiang; Hazy, Amanda; Fritsch, Lauren E.; Gudenschwager-Basso, Erwin K.; Chen, Michael; Wang, Xia; Qian, Yun; Zhou, Mingjun; Byerly, Matthew; Pickrell, Alicia M.; Matson, John B.; Allen, Irving C.; Theus, Michelle H. (2019-11-11)
    Background The continuum of pro- and anti-inflammatory response elicited by traumatic brain injury (TBI) is suggested to play a key role in the outcome of TBI; however, the underlying mechanisms remain ill -defined. Methods Here, we demonstrate that using bone marrow chimeric mice and systemic inhibition of EphA4 receptor shifts the pro-inflammatory milieu to pro-resolving following acute TBI. Results EphA4 expression is increased in the injured cortex as early as 2 h post-TBI and on CX3CR1gfp-positive cells in the peri-lesion. Systemic inhibition or genetic deletion of EphA4 significantly reduced cortical lesion volume and shifted the inflammatory profile of peripheral-derived immune cells to pro-resolving in the damaged cortex. These findings were consistent with in vitro studies showing EphA4 inhibition or deletion altered the inflammatory state of LPS-stimulated monocyte/macrophages towards anti-inflammatory. Phosphoarray analysis revealed that EphA4 may regulate pro-inflammatory gene expression by suppressing the mTOR, Akt, and NF-κB pathways. Our human metadata analysis further demonstrates increased EPHA4 and pro-inflammatory gene expression, which correlates with reduced AKT concurrent with increased brain injury severity in patients. Conclusions Overall, these findings implicate EphA4 as a novel mediator of cortical tissue damage and neuroinflammation following TBI.