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Items: 1 to 20 of 101

1.

Valproic acid promotes mature neuronal differentiation of adipose tissue-derived stem cells through iNOS-NO-sGC signaling pathway.

Okubo T, Fujimoto S, Hayashi D, Suzuki T, Sakaue M, Miyazaki Y, Tanaka K, Usami M, Takizawa T.

Nitric Oxide. 2019 Sep 1;93:1-5. doi: 10.1016/j.niox.2019.08.008. [Epub ahead of print]

PMID:
31484045
2.

Differentiation of rat adipose tissue-derived stem cells into neuron-like cells by valproic acid, a histone deacetylase inhibitor.

Okubo T, Hayashi D, Yaguchi T, Fujita Y, Sakaue M, Suzuki T, Tsukamoto A, Murayama O, Lynch J, Miyazaki Y, Tanaka K, Takizawa T.

Exp Anim. 2016;65(1):45-51. doi: 10.1538/expanim.15-0038. Epub 2015 Sep 25.

3.

Valproic acid, a histone deacetylase inhibitor, decreases proliferation of and induces specific neurogenic differentiation of canine adipose tissue-derived stem cells.

Kurihara Y, Suzuki T, Sakaue M, Murayama O, Miyazaki Y, Onuki A, Aoki T, Saito M, Fujii Y, Hisasue M, Tanaka K, Takizawa T.

J Vet Med Sci. 2014 Jan;76(1):15-23. Epub 2013 Aug 27.

4.

Valproic acid promotes neuronal differentiation by induction of neuroprogenitors in human bone-marrow mesenchymal stromal cells.

Jeong SG, Ohn T, Kim SH, Cho GW.

Neurosci Lett. 2013 Oct 25;554:22-7. doi: 10.1016/j.neulet.2013.08.059. Epub 2013 Sep 8.

PMID:
24021810
5.

Histone deacetylase inhibition-mediated neuronal differentiation via the Wnt signaling pathway in human adipose tissue-derived mesenchymal stem cells.

Jang S, Jeong HS.

Neurosci Lett. 2018 Mar 6;668:24-30. doi: 10.1016/j.neulet.2018.01.006. Epub 2018 Jan 4.

PMID:
29307599
6.

Valproic acid promotes the neuronal differentiation of spiral ganglion neural stem cells with robust axonal growth.

Moon BS, Lu W, Park HJ.

Biochem Biophys Res Commun. 2018 Sep 18;503(4):2728-2735. doi: 10.1016/j.bbrc.2018.08.032. Epub 2018 Aug 16.

PMID:
30119886
7.

Contribution of iNOS/sGC/PKG pathway, COX-2, CYP4A1, and gp91(phox) to the protective effect of 5,14-HEDGE, a 20-HETE mimetic, against vasodilation, hypotension, tachycardia, and inflammation in a rat model of septic shock.

Tunctan B, Korkmaz B, Sari AN, Kacan M, Unsal D, Serin MS, Buharalioglu CK, Sahan-Firat S, Cuez T, Schunck WH, Manthati VL, Falck JR, Malik KU.

Nitric Oxide. 2013 Sep 1;33:18-41. doi: 10.1016/j.niox.2013.05.001. Epub 2013 May 14.

8.

New Insights into the Neural Differentiation Potential of Canine Adipose Tissue-Derived Mesenchymal Stem Cells.

Blecker D, Elashry MI, Heimann M, Wenisch S, Arnhold S.

Anat Histol Embryol. 2017 Jun;46(3):304-315. doi: 10.1111/ahe.12270. Epub 2017 Apr 11.

PMID:
28401575
9.

Immunocytochemical analysis of valproic acid induced histone H3 and H4 acetylation during differentiation of rat adipose derived stem cells into neuron-like cells.

Rezaei F, Tiraihi T, Abdanipour A, Hassoun HK, Taheri T.

Biotech Histochem. 2018;93(8):589-600. doi: 10.1080/10520295.2018.1511063. Epub 2018 Oct 1.

PMID:
30273059
10.

In vitro neuronal induction of adipose-derived stem cells and their fate after transplantation into injured mouse brain.

Pavlova G, Lopatina T, Kalinina N, Rybalkina E, Parfyonova Y, Tkachuk V, Revishchin A.

Curr Med Chem. 2012;19(30):5170-7.

PMID:
22934763
11.

The influence of TSA and VPA on the in vitro differentiation of bone marrow mesenchymal stem cells into neuronal lineage cells: Gene expression studies.

Fila-Danilow A, Borkowska P, Paul-Samojedny M, Kowalczyk M, Kowalski J.

Postepy Hig Med Dosw (Online). 2017 Mar 27;71(0):236-242.

12.

Valproic acid enhances the neural differentiation of human placenta derived-mesenchymal stem cells in vitro.

Talwadekar M, Fernandes S, Kale V, Limaye L.

J Tissue Eng Regen Med. 2017 Nov;11(11):3111-3123. doi: 10.1002/term.2219. Epub 2016 Oct 25.

PMID:
27781405
13.
14.

The differentiation of human adipose-derived stem cells towards a urothelium-like phenotype in vitro and the dynamic temporal changes of related cytokines by both paracrine and autocrine signal regulation.

Zhang M, Xu MX, Zhou Z, Zhang K, Zhou J, Zhao Y, Wang Z, Lu MJ.

PLoS One. 2014 Apr 21;9(4):e95583. doi: 10.1371/journal.pone.0095583. eCollection 2014.

15.

Valproic Acid Arrests Proliferation but Promotes Neuronal Differentiation of Adult Spinal NSPCs from SCI Rats.

Chu W, Yuan J, Huang L, Xiang X, Zhu H, Chen F, Chen Y, Lin J, Feng H.

Neurochem Res. 2015 Jul;40(7):1472-86. doi: 10.1007/s11064-015-1618-x. Epub 2015 May 29.

PMID:
26023063
16.

Wnt signaling pathway participates in valproic acid-induced neuronal differentiation of neural stem cells.

Wang L, Liu Y, Li S, Long ZY, Wu YM.

Int J Clin Exp Pathol. 2015 Jan 1;8(1):578-85. eCollection 2015.

17.

Valproic acid enhances neuronal differentiation of sympathoadrenal progenitor cells.

Vukićević V, Qin N, Balyura M, Eisenhofer G, Wong ML, Licinio J, Bornstein SR, Ehrhart-Bornstein M.

Mol Psychiatry. 2015 Aug;20(8):941-50. doi: 10.1038/mp.2015.3. Epub 2015 Feb 24.

PMID:
25707399
18.

c-Jun Amino-Terminal Kinase is Involved in Valproic Acid-Mediated Neuronal Differentiation of Mouse Embryonic NSCs and Neurite Outgrowth of NSC-Derived Neurons.

Lu L, Zhou H, Pan B, Li X, Fu Z, Liu J, Shi Z, Chu T, Wei Z, Ning G, Feng S.

Neurochem Res. 2017 Apr;42(4):1254-1266. doi: 10.1007/s11064-016-2167-7. Epub 2017 Mar 21. Erratum in: Neurochem Res. 2019 Aug 20;:.

19.

Anatomical site influences the differentiation of adipose-derived stem cells for Schwann-cell phenotype and function.

Kaewkhaw R, Scutt AM, Haycock JW.

Glia. 2011 May;59(5):734-49. doi: 10.1002/glia.21145. Epub 2011 Feb 23.

PMID:
21351157
20.

[Preliminary evaluation and mechanism of adipose-derived stem cell transplantation from allogenic diabetic rats in the treatment of diabetic rat wounds].

Dong JY, Gong JH, Ji XY, Tian M, Liu YK, Qing C, Lu SL, Song F.

Zhonghua Shao Shang Za Zhi. 2019 Sep 20;35(9):645-654. doi: 10.3760/cma.j.issn.1009-2587.2019.09.002. Chinese.

PMID:
31594182

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