TY - JOUR
T1 - Microtubule-Targeting Agents Eribulin and Paclitaxel Differentially Affect Neuronal Cell Bodies in Chemotherapy-Induced Peripheral Neuropathy
AU - Benbow, Sarah J.
AU - Wozniak, Krystyna M.
AU - Kulesh, Bridget
AU - Savage, April
AU - Slusher, Barbara S.
AU - Littlefield, Bruce A.
AU - Jordan, Mary Ann
AU - Wilson, Leslie
AU - Feinstein, Stuart C.
N1 - Funding Information:
We are grateful to Nichole LaPointe, Brett Cook, Benjamin Reese, Patrick Keeley, Jennifer Smith, and Mary Raven for valuable discussions and to Benjamin Reese for sharing equipment with us. We also acknowledge the use of instruments in the NRI-MCDB Microscopy Facility at UCSB (supported in part by the Office of The Director, National Institutes of Health of the NIH under Award # S10OD010610). This work was supported by grants from EISAI (to SCF, BSS, MAJ, and LW) and the NIH/NCI (R01CA161056) to BSS.
Publisher Copyright:
© 2017, Springer Science+Business Media New York.
PY - 2017/7/1
Y1 - 2017/7/1
N2 - Chemotherapy-induced peripheral neuropathy (CIPN) is a common side effect of anticancer treatment with microtubule-targeted agents (MTAs). The frequency of severe CIPN, which can be dose limiting and even life threatening, varies widely among different MTAs. For example, paclitaxel induces a higher frequency of severe CIPN than does eribulin. Different MTAs also possess distinct mechanisms of microtubule-targeted action. Recently, we demonstrated that paclitaxel and eribulin differentially affect sciatic nerve axons, with paclitaxel inducing more pronounced neurodegenerative effects and eribulin inducing greater microtubule stabilizing biochemical effects. Here, we complement and extend these axonal studies by assessing the effects of paclitaxel and eribulin in the cell bodies of sciatic nerve axons, housed in the dorsal root ganglia (DRG). Importantly, the microtubule network in cell bodies is known to be significantly more dynamic than in axons. Paclitaxel induced activating transcription factor 3 expression, a marker of neuronal stress/injury. Paclitaxel also increased expression levels of acetylated tubulin and end binding protein 1, markers of microtubule stability and growth, respectively. These effects are hypothesized to be detrimental to the dynamic microtubule network within the cell bodies. In contrast, eribulin had no significant effect on any of these parameters in the cell bodies. Taken together, DRG cell bodies and their axons, two distinct neuronal cell compartments, contain functionally distinct microtubule networks that exhibit unique biochemical responses to different MTA treatments. We hypothesize that these distinct mechanistic actions may underlie the variability seen in the initiation, progression, persistence, and recovery from CIPN.
AB - Chemotherapy-induced peripheral neuropathy (CIPN) is a common side effect of anticancer treatment with microtubule-targeted agents (MTAs). The frequency of severe CIPN, which can be dose limiting and even life threatening, varies widely among different MTAs. For example, paclitaxel induces a higher frequency of severe CIPN than does eribulin. Different MTAs also possess distinct mechanisms of microtubule-targeted action. Recently, we demonstrated that paclitaxel and eribulin differentially affect sciatic nerve axons, with paclitaxel inducing more pronounced neurodegenerative effects and eribulin inducing greater microtubule stabilizing biochemical effects. Here, we complement and extend these axonal studies by assessing the effects of paclitaxel and eribulin in the cell bodies of sciatic nerve axons, housed in the dorsal root ganglia (DRG). Importantly, the microtubule network in cell bodies is known to be significantly more dynamic than in axons. Paclitaxel induced activating transcription factor 3 expression, a marker of neuronal stress/injury. Paclitaxel also increased expression levels of acetylated tubulin and end binding protein 1, markers of microtubule stability and growth, respectively. These effects are hypothesized to be detrimental to the dynamic microtubule network within the cell bodies. In contrast, eribulin had no significant effect on any of these parameters in the cell bodies. Taken together, DRG cell bodies and their axons, two distinct neuronal cell compartments, contain functionally distinct microtubule networks that exhibit unique biochemical responses to different MTA treatments. We hypothesize that these distinct mechanistic actions may underlie the variability seen in the initiation, progression, persistence, and recovery from CIPN.
KW - Chemotherapy-induced peripheral neuropathy
KW - Dorsal root ganglia
KW - Eribulin
KW - Microtubules
KW - Neuronal cell bodies
KW - Paclitaxel
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U2 - 10.1007/s12640-017-9729-6
DO - 10.1007/s12640-017-9729-6
M3 - Article
C2 - 28391556
AN - SCOPUS:85017099125
SN - 1029-8428
VL - 32
SP - 151
EP - 162
JO - Neurotoxicity research
JF - Neurotoxicity research
IS - 1
ER -