Fabio Baronti

No evidence for altered muscle mitochondrial function in Parkinson's disease.

Recent reports indicate that reductions in mitochondrial respiratory chain function occur in substantia nigra, platelets, and muscle from patients with Parkinsons disease. To confirm and further characterise the presence of a generally distributed mitochondrial defect, mitochondrial metabolism was evaluated in muscle obtained from subjects with Parkinsons disease and from normal controls. Oxygen consumption rates in muscle mitochondria represented by complex I, complexes II-III, or complex IV did not differ between the two groups. Likewise, activities of rotenone sensitive NADH cytochrome c reductase, succinate cytochrome c reductase, or cytochrome oxidase in muscle mitochondria were not significantly different between Parkinsonian and control subjects. These findings fail to provide support for a generalised defect in mitochondrial function in Parkinsons disease but do not exclude an abnormality in respiratory function confined to the substantia nigra.

Deprenyl effects on levodopa pharmacodynamics, mood, and free radical scavenging

Clinical evidence suggests that deprenyl may slow progression of Parkinsons disease, although mechanisms underlying this putative neuroprotective action remain poorly understood. To address this issue, we studied deprenyl in 12 parkinsonian patients using a single-blind, placebo-controlled, crossover design. After 1 month, deprenyl (10 mg/d) decreased the optimal levodopa requirement by 24% (oral) and 16% (intravenous). Levodopa-induced dyskinesias were prolonged by 430%, and antiparkinsonian action by 44%. Mood improved by 47%. One month after withdrawing deprenyl, effects on dyskinesias and mood had yet to return to baseline. There was no change in activities of circulating glutathione peroxidase, glutathione reductase, glutathione transferase, superoxide dismutase, and catalase, nor in levels of lipid peroxide and vitamin E. Deprenyl also failed to modify CSF levels of total glutathione and activities of glutathione peroxidase or superoxide dismutase. These effects on levodopa pharmacodynamics and mood complicate the interpretation of available investigations of deprenyls neuroprotective action and increase the risk of adverse effects of levodopa.

Partial dopamine agonist therapy of levodopa‐induced dyskinesias

We administered the partial dopamine agonist terguride under controlled conditions to patients with Parkinsons disease (PD), both as monotherapy and in conjunction with intravenous levodopa. Terguride produced a dose-dependent decrease in levodopa-induced dyskinesias (up to 53%) in seven patients without concomitant worsening of parkinsonism, and had no significant antiparkinsonian effect when administered alone. Partial dopamine agonists may hold some promise in the adjuvant therapy of patients with advanced PD.

Acute effects of pulsatile levodopa administration on central dopamine pharmacodynamics

Inconsistencies in the response to individual levodopa doses occur in most patients with advanced Parkinsons disease (PD). To investigate the possible development of acute tachyphylaxis, we evaluated the effects of repeated injections of intravenous levodopa in 10 PD patients with motor fluctuations by administering, during a single day, a previously determined optimal levodopa dose repeatedly each time motor function returned to baseline. Peak antiparkinsonian response was lower by 20%, and peak plasma levodopa levels lower by 35% following the first dose compared with all subsequent doses. Neither peak dyskinesia scores nor the duration of motor response changed significantly with successive levodopa doses. These data suggest that pulsatile levodopa administration does not acutely alter dopamine receptor responsiveness, and that other pharmacokinetic and pharmacodynamic factors contribute to the dose‐to‐dose variability in response to levodopa. NEUROLOGY 1991;41:630‐633

Opioid peptides in Parkinson's disease: effects of dopamine repletion

Neurotransmitters other than dopamine, including neuropeptides, could have important pathophysiologic and therapeutic roles in Parkinsons disease. Both Met-enkephalin, the main transmitter of the striatopallidal pathway, and dynorphin, one of the co-transmitters of the striatonigral pathway display complex anatomic and biochemical interactions with the basal ganglionic dopamine system. In this study, the cerebrospinal fluid content of a proenkephalin derivative, Met5 enkephalin-Arg6-Gly7-Leu8 (MERGL), was found in significantly low concentrations in parkinsonian patients following overnight withdrawal of all medications compared with control subjects, and failed to change after at least 16 h of steady-state, optimal doses of levodopa infusion intravenously. MERGL levels increased with advancing age among normal individuals but not among patients with Parkinsons disease. In contrast dynorphin A(1-8) levels were not different between the two study groups, did not change with levodopa therapy, and failed to correlate with age or any indices of disease progression. These observations, consistent with post-mortem studies on Parkinson brains and contrary to findings in animal models of Parkinsonism, suggest that abnormality of the enkephalin system in this disease is due to involvement of these striatal neurons in the primary pathologic process.

Growth hormone secretion in Alzheimer's disease: 24-hour profile of basal levels and response to stimulation and suppression studies.

The 24-h growth hormone secretory pattern and GH response to growth hormone releasing hormone, the alpha 2-adrenoceptor agonist clonidine and the somatostatin-analogue SMS 201-995 were evaluated in 9 patients with Alzheimers disease and 9 age- and body body-matched control subjects. The secretory profile did not differentiate between patients and controls. Both secreted the largest amount of GH during the early nighthours between 22.00-02.00, whereas the majority of daytime GH levels were below the assays detection limit (0.4 ng/ml). No difference was found in GH response to GHRH between patients and controls. All subjects showed significantly enhanced GH secretion after GHRH. Dividing the patients into two groups according to age-of-onset (less than 60 years greater than), there was a trend toward larger GH responses to GHRH for the early-onset group. No other parameter differentiated the groups. GH levels after clonidine were blunted in all subjects but one AD patient, probably due to an age-dependent attenuation frequently observed in subjects over 45 years of age. Finally, the administration of the somatostatin-analogue did not render conclusive results, since spontaneous decline of GH concentration was already beginning 2 hours before the drug was given and continued steadily throughout the observation period. In conclusion, patients with only mild to moderate degree of Alzheimers disease have no prominent changes in GH regulation.

Comparison of the clinical pharmacology of (-)NPA and levodopa in Parkinson's disease.

Direct acting dopamine agonists are generally less effective than levodopa in relieving symptoms of Parkinsons disease. In an attempt to quantitate and explain this situation, the acute motor responses to intravenous injections of the dopamine agonist, (-)-N-n-propyl-norapomorphine hydrochloride (NPA), were compared with those of the dopamine precursor, levodopa. At optimum dose levels, the acute anti-Parkinsonian efficacy of NPA averaged only about 50% of maximum, while essentially total symptom suppression was obtained with levodopa in patients previously treated with the amine precursor. Dyskinesia severity, however, was similar with the two drugs. These differences in anti-Parkinsonian efficacy may reflect the fact that while NPA acts mainly on D-2 dopamine receptors, levodopa results in stimulation of both the D-1 and D-2 subsets of receptors at a more physiological ratio. Future efforts to develop dopamine agonists for the treatment of Parkinsonian symptoms may thus have to consider focusing on drugs having pharmacological profile more similar to that of dopamine.