Breathing impairments, such as an alteration in breathing
pattern, dyspnoea, and sleep apnoea, are common health deficits
recognised in Parkinson’s disease (PD). The mechanism that
underlies these disturbances, however, remains unclear. We
investigated the effect of the unilateral damage to the rat
nigrostriatal pathway on the central ventilatory response to
hypercapnia, evoked by administering 6-hydroxydopamine
(6-OHDA) into the right medial forebrain bundle (MFB). The
respiratory experiments were carried out in conscious animals in
the plethysmography chamber. The ventilatory parameters were
studied in normocapnic and hyperoxic hypercapnia before and
14 days after the neurotoxin injection. Lesion with the 6-OHDA
produced an increased tidal volume during normoxia. The
magnified response of tidal volume and a decrease of breathing
frequency to hypercapnia were observed in comparison to the
pre-lesion and sham controls. Changes in both respiratory
parameters resulted in an increase of minute ventilation of the
response to CO2 by 28 % in comparison to the pre-lesion state
at 60 s. Our results demonstrate that rats with implemented
unilateral PD model presented an altered respiratory pattern
most often during a ventilatory response to hypercapnia.
Preserved noradrenaline and specific changes in dopamine and
serotonin characteristic for this model could be responsible for
the pattern of breathing observed during hypercapnia.