Rotenone inhibits axonogenesis via an Lfc/RhoA/ROCK pathway in cultured hippocampal neurons

BISBAL, MARIANO; CÁCERES, ALFREDO; QUASSOLLO, GONZALO; REMEDI, MÓNICA; BISBAL, MARIANO; REMEDI, MÓNICA; SANCHEZ, MÓNICA; SANCHEZ, MÓNICA; CÁCERES, ALFREDO; QUASSOLLO, GONZALO

JOURNAL OF NEUROCHEMISTRY

WILEY-BLACKWELL PUBLISHING, INC

Año: 2018 vol. 146 p. 570 - 584

0022-3042

Rotenone, a broad-spectrum insecticide, piscicide and pesticide, produces a complete and selective suppression of axonogenesis in cultured hippocampal neurons. This effect is associated with an inhibition of actin dynamics through activation of Ras homology member A (RhoA) activity. However, the upstream signaling mechanisms involved in rotenone-induced RhoA activation were unknown. We hypothesized that rotenone might inhibit axon growth by the activation of RhoA/ROCK pathway because of the changes in microtubule (MT) dynamics and the concomitant release of Lfc, a MT-associated Guanine Nucleotide Exchange Factor (GEF) for RhoA. In this study, we demonstrate that rotenone decreases MT stability in morphologically unpolarized neurons. Taxol (3 nM), a drug that stabilizes MT, attenuates the inhibitory effect of rotenone (0.1 μM) on axon formation. Radiometric Forster Resonance Energy Transfer, revealed that this effect is associated with inhibition of rotenone-induced RhoA and ROCK activation. Interestingly, silencing of Lfc, but not of the RhoA GEF ArhGEF1, prevents the inhibitory effect of rotenone on axon formation. Our results suggest that rotenone-induced MT de-stabilization releases Lfc from MT thereby promoting RhoA and ROCK activities and the consequent inhibition of axon growth. Open Science: This manuscript was awarded with the Open Materials Badge. For more information see: https://cos.io/our-services/open-science-badges/. (Figure presented.).