Joanna Kosacka1, Katrin Woidt2, Klaus V Toyka3, Sabine Paeschke2, Nora Klöting4,5, Ingo Bechmann2, Matthias Blüher4, Joachim Thiery6, Susann Ossmann7, Petra Baum1, Marcin Nowicki2. 1. a Department of Neurology , University of Leipzig , Leipzig , Germany. 2. b Institute of Anatomy , University of Leipzig , Leipzig , Germany. 3. c Department of Neurology , University of Würzburg , Würzburg , Germany. 4. d Department of Medicine , University of Leipzig , Leipzig , Germany. 5. e Integrated Research and Treatment Center (IFB) Adiposity Disease , Leipzig , Germany. 6. f Institute of Laboratory Medicine, Clinical Chemistry and Molecular Diagnostics (ILM) , University of Leipzig , Leipzig , German. 7. g Heart Center , University of Leipzig , Leipzig , Germany.
Abstract
INTRODUCTION: Here, we investigated inflammatory signs of peripheral nerves in leptin-deficient obese ob/ob mice and the modulating effects of the exogenous iron load. METHODS: Ob/ob and ob/+ control mice were fed with high, standard, or low iron diet for four months. RESULTS: We found intraepidermal nerve fiber degeneration in foot skin and low-grade neuropathic abnormalities including mildly slowed motor and compound sensory nerve conduction velocities and low-grade macrophage and T-cell infiltration without overt neuropathology in sciatic nerves of all ob/ob mice. Low dietary iron load caused more pronounced abnormalities than high iron load in ob/ob mice. DISCUSSION: Our data suggest that dietary non-heme iron deficiency may be a modulating factor in the pathogenesis of peripheral neuropathy in obese ob/ob mice with metabolic syndrome. Once the mechanisms can be further elucidated, how low dietary iron augments peripheral nerve degeneration and dysfunction via pro-inflammatory pathways and new therapeutic strategies could be developed. ABBREVIATIONS: CMAP: compound muscle action potential; cSNCV: compound sensory nerve conduction velocity; IENFD: intraepidermal nerve fiber density; LDL: low-density lipoprotein; MetS: metabolic syndrome; MNCV: motor conduction velocity; NCV: nerve conduction velocity; PN: peripheral neuropathy; PNS: peripheral nervous system; STZ: streptozotocin; T2D: type 2 diabetes mellitus; TNF alpha: tumor necrosis factor alpha; WHO: World Health Organization.
INTRODUCTION: Here, we investigated inflammatory signs of peripheral nerves in leptin-deficient obese ob/ob mice and the modulating effects of the exogenous iron load. METHODS: Ob/ob and ob/+ control mice were fed with high, standard, or low iron diet for four months. RESULTS: We found intraepidermal nerve fiber degeneration in foot skin and low-grade neuropathic abnormalities including mildly slowed motor and compound sensory nerve conduction velocities and low-grade macrophage and T-cell infiltration without overt neuropathology in sciatic nerves of all ob/ob mice. Low dietary iron load caused more pronounced abnormalities than high iron load in ob/ob mice. DISCUSSION: Our data suggest that dietary non-hemeiron deficiency may be a modulating factor in the pathogenesis of peripheral neuropathy in obese ob/ob mice with metabolic syndrome. Once the mechanisms can be further elucidated, how low dietary iron augments peripheral nerve degeneration and dysfunction via pro-inflammatory pathways and new therapeutic strategies could be developed. ABBREVIATIONS: CMAP: compound muscle action potential; cSNCV: compound sensory nerve conduction velocity; IENFD: intraepidermal nerve fiber density; LDL: low-density lipoprotein; MetS: metabolic syndrome; MNCV: motor conduction velocity; NCV: nerve conduction velocity; PN: peripheral neuropathy; PNS: peripheral nervous system; STZ: streptozotocin; T2D: type 2 diabetes mellitus; TNF alpha: tumor necrosis factor alpha; WHO: World Health Organization.