We propose lathyranes like ELAC as new drug candidates to modulate adult neurogenesis through PKC activation. Functional and structural comparisons between ELAC and phorboids are included.
Background:Neuropsychiatric and neurological disorders frequently occur after brain insults associated with neuronal loss. Strategies aimed to facilitate neuronal renewal by promoting neurogenesis constitute a promising therapeutic option to treat neuronal death-associated disorders. In the adult brain, generation of new neurons occurs physiologically throughout the entire life controlled by extracellular molecules coupled to intracellular signaling cascades. Proteins participating in these cascades within neurogenic regions constitute potential pharmacological targets to promote neuronal regeneration of injured areas of the central nervous system.Methodology:We have performed in vitro and in vivo approaches to determine neural progenitor cell proliferation to understand whether activation of kinases of the protein kinase C family facilitates neurogenesis in the adult brain.Results:We have demonstrated that protein kinase C activation by phorbol-12-myristate-13-acetate induces neural progenitor cell proliferation in vitro. We also show that the nontumorogenic protein kinase C activator prostratin exerts a proliferative effect on neural progenitor cells in vitro. This effect can be reverted by addition of the protein kinase C inhibitor G06850, demonstrating that the effect of prostratin is mediated by protein kinase C activation. Additionally, we show that prostratin treatment in vivo induces proliferation of neural progenitor cells within the dentate gyrus of the hippocampus and the subventricular zone. Finally, we describe a library of diterpenes with a 12-deoxyphorbol structure similar to that of prostratin that induces a stronger effect than prostratin on neural progenitor cell proliferation both in vitro and in vivo.Conclusions:This work suggests that protein kinase C activation is a promising strategy to expand the endogenous neural progenitor cell population to promote neurogenesis and highlights the potential of 12-deoxyphorbols as pharmaceutical agents to facilitate neuronal renewal.
A novel diterpenoid, gaditanone (2), which possesses an unprecedented 5/6/4/6-fused gaditanane tetracyclic ring skeleton, and a new jatrophane (1) were isolated from the aerial parts of Euphorbia gaditana. The chemical structures and absolute configurations were determined by extensive spectroscopic NMR studies and ECD data analysis. A proposed biosynthetic pathway is presented for compound 2.
Lathyrane-type diterpenes previously
have been proven to promote
proliferation of neural precursor cells (NPCs) by targeting and activating
one or more protein kinase C (PKC) isozymes. Aiming to find new drug
candidates with a lathyrane skeleton to modulate adult neurogenesis
through PKC activation, a phytochemical study of a methanol extract
of the aerial parts of Euphorbia boetica was carried
out. Seven new diterpenes, representing the premyrsinane (1–3), myrsinane (4, 5), and cyclomyrsinane types (6, 7), along
with three known diterpenes, belonging to the cyclomyrsinane (8) and lathyrane types (9, 10),
were isolated. The chemical structures and relative configurations
of the new compounds were determined by extensive NMR spectroscopic
studies and comparison with known compounds. The absolute configurations
for compounds 2, 3, 6, and 7 were proposed, based on a comparison of the experimental
ECD spectra of compounds 2 and 7 with those
of known related compounds. The activity of lathyrane compounds 9 and 10 as promoters of NPC proliferation was
evaluated using a neurosphere assay. Both compounds increased the
size of neurospheres in a dose-dependent manner when proliferation
was stimulated by the epidermal growth factor and the basic fibroblast
growth factor.
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