Abstract
Nicotinamide mononucleotide adenylyl transferases (NMNATs) are essential neuronal maintenance factors postulated to preserve neuronal function and protect against axonal degeneration in various neurodegenerative disease states. We used in vitro and in vivo approaches to assess the impact of NMNAT2 reduction on cellular and physiological functions induced by treatment with a vinca alkaloid (vincristine) and a taxane-based (paclitaxel) chemotherapeutic agent. NMNAT2 null (NMNAT2-/-) mutant mice die at birth and cannot be used to probe functions of NMNAT2 in adult animals. Nonetheless, primary cortical cultures derived from NMNAT2-/- embryos showed reduced cell viability in response to either vincristine or paclitaxel treatment whereas those derived from NMNAT2 heterozygous (NMNAT2+/-) mice were preferentially sensitive to vincristine-induced degeneration. Adult NMNAT2+/- mice, which survive to adulthood, exhibited a 50% reduction of NMNAT2 protein levels in dorsal root ganglia relative to wildtype (WT) mice with no change in levels of other NMNAT isoforms (NMNAT1 or NMNAT3), NMNAT enzyme activity (i.e. NAD/NADH levels) or microtubule associated protein-2 (MAP2) or neurofilament protein levels. We therefore compared the impact of NMNAT2 knockdown on the development and maintenance of chemotherapy-induced peripheral neuropathy induced by vincristine and paclitaxel treatment using NMNAT2+/- and WT mice. NMNAT2+/- did not differ from WT mice in either the development or maintenance of either mechanical or cold allodynia induced by either vincristine or paclitaxel treatment. Intradermal injection of capsaicin, the pungent ingredient in hot chili peppers, produced equivalent hypersensitivity in NMNAT2+/- and WT mice receiving vehicle in lieu of paclitaxel. Capsaicin-evoked hypersensitivity was enhanced by prior paclitaxel treatment but did not differ in either NMNAT2+/- or WT mice. Thus, capsaicin failed to unmask differences in nociceptive behaviors in either paclitaxel-treated or paclitaxel-untreated NMNAT2+/- and WT mice. Moreover, no differences in motor behavior were detected between genotypes in the rotarod test. Our studies do not preclude the possibility that complete knockout of NMNAT2 in a conditional knockout animal could unmask a role for NMNAT2 in protection against detrimental effects of chemotherapeutic treatment.
Highlights
Nicotinamide mononucleotide adenylyl transferases (NMNATs) are neuronal maintenance factors postulated to preserve normal neuronal function and protect neurons from insult [1]
We used an MTT colorimetric assay to quantify the impact of vincristine and paclitaxel on cell viability in cultured cortical neurons derived from NMNAT2-/, NMNAT2+/- and WT mice
We hypothesized that depletion of NMNAT2 would exacerbate both neurotoxicity and peripheral neuropathy induced by chemotherapeutic treatment
Summary
Nicotinamide mononucleotide adenylyl transferases (NMNATs) are neuronal maintenance factors postulated to preserve normal neuronal function and protect neurons from insult [1]. NMNATs maintain upkeep and repair of axons, and overexpression of these proteins may confer neuroprotection in specific disease states [3]. NNMNAT2 has been implicated as an essential factor for axonal survival in primary sensory and sympathetic nerve cell injury models in vitro [4,5]. Complete loss-of-function of NMNAT2 in vivo has been shown to be lethal, where mice die at birth, due to severe peripheral denervation. NMNAT2 plays an essential role in maintaining the integrity of peripheral neurons
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