Clonidine Prevents Methylxanthine Stimulation of Norepinephrine Metabolism in Rat Brain

Methylxanthines can produce behavior resembling opiate withdrawal in rats. Since previous studies have demonstrated the involvement of central noradrenergic systems during naloxone-precipitated withdrawal, the effects of 3-isobutyl-1-methylxanthine (IBMX) on norepinephrine metabolism in rat brain were studied. It was found that administration of IBMX elevated levels of the major norepinephrine metabolite 3-methoxy-4-hydroxyphenylglycol (MHPG) in areas innervated by the locus coeruleus. The increases in MHPG was noted 1 h after administration and was maximal (270% of control) after 3 h. Levels of another norepinephrine metabolite, 3,4-dihydroxyphenylglycol, followed a similar pattern and time course. Coadministration of naloxone with IBMX did not affect the IBMX-induced elevation in MHPG. Administration of the alpha-agonist clonidine, however, antagonized the effects of IBMX on MHPG levels. The effects of IBMX and clonidine were dose dependent; the lowest dose of IBMX needed to elevate MHPG was 30 mumol/kg (i.p.), and clonidine (180 nmol/kg) reduced the effect of IBMX (100 mumol/kg) by 50%. The data, discussed in terms of a methylxanthine-noradrenergic interaction, suggest that withdrawal behaviors in general may be subserved by hyperactive noradrenergic neurons.