Reversible abnormalities of the Hering Breuer reflex in acrylamide neuropathy

Effects of acrylamide on cotransmission in perivascular sympathetic and sensory nerves

The effects of chronic administration of acrylamide on sympathetic and sensory nerves were examined in the mesenteric artery of rabbits. The noradrenaline (NA) content of the artery was significantly decreased and the total contractile response to electrical field stimulation (4-64 Hz) markedly reduced in the acrylamide group. This was not due to an impairment of the contractility of the smooth muscle or to alterations in the postjunctional receptors. At 16 Hz, only the purinergic component of sympathetic cotransmission was significantly reduced by acrylamide. At 64 Hz, both the purinergic and the adrenergic components were significantly decreased. Field stimulation of the artery pretreated with guanethidine and precontracted with NA produced a frequency-dependent relaxation which was prevented by capsaicin and thus mediated by perivascular sensory nerves. In contrast to its effects on sympathetic cotransmission, acrylamide resulted in a trend, although not significant, towards increased responses at each frequency studied (2-16 Hz). 2-Methylthio-ATP (2Me-S-ATP) caused significantly greater relaxation following acrylamide treatment while vasodilator responses to calcitonin gene-related peptide and substance P were unchanged. It is concluded that, in addition to its known action in producing neuropathy in myelinated somatic motor and sensory nerves, acrylamide causes damage to unmyelinated perivascular sympathetic fibres. Purinergic mechanisms may be particularly susceptible to acrylamide since both the purinergic component of sympathetic vasoconstriction and the relaxation in response to 2Me-S-ATP were affected by acrylamide treatment.

Abnormal cough reflex in canine acrylamide neuropathy

Coughing in response to irritation of the airways is a fundamental protective reflex that is dependent on rapidly adapting bronchopulmonary receptors and their vagal afferent fibers; reflex airway constriction, which is effected by vagomotor efferent fibers, usually accompanies coughing. Although dysfunction of vagally mediated cardiovascular and gastrointestinal reflexes is a well-documented complication of autonomic neuropathy, to date there have been no studies of the effect of peripheral autonomic failure on the cough reflex. In the study reported here, we examined the effect of acrylamide-induced neuropathy, a distal axonopathy, on the ventilatory and tracheomotor components of the cough reflex in conscious dogs. There was a reduction in the cough reflex in response to mechanical irritation of the large airways in the preclinical phase of the neuropathy, and the cough reflex was virtually abolished when the dogs had moderate neuropathy. Following withdrawal of the neurotoxin, there was a substantial recovery of the cough reflex in surviving animals. It is possible that the cough reflex may be reduced in patients with vagal neuropathy and that this might compromise protection of the airway.

Breathing pattern, lung inflation reflex and airway tone in acrylamide neuropathy

Slowly adapting pulmonary stretch receptors (SARs) participate in numerous respiratory reflexes, including the Hering-Breuer lung inflation reflex (HBR), and reflex control of respiratory rate and depth. In addition, SAR discharge may modulate airway tone. We studied the effect of acrylamide neuropathy, which causes reversible dysfunction of SARs and their myelinated vagal afferents, on the breathing pattern, HBR and airway tone in conscious dogs. As neuropathy evolved, breathing became slow and deep, and both the apnoeic and bronchodilatory responses to lung inflation were markedly reduced, findings consistent with SAR dysfunction. Recovery of clinical neuropathy and respiratory reflexes followed acrylamide withdrawal. Despite the obvious abnormalities of SAR-mediated reflexes in acrylamide-affected dogs, airway tone remained normal and sinus arrhythmia prominent in the presence of neuropathy, suggesting that small diameter vagomotor efferents are relatively resistant to acrylamide. Acrylamide neuropathy provides a useful preparation for the study of vagomotor function in animals in which feedback from myelinated pulmonary afferents is attenuated.