Body temperature response profiles for selective mu, delta and kappa opioid agonists in restrained and unrestrained rats

In many cases, body temperature is altered in response to opioid agonists, but the direction, magnitude and time course of alteration vary with a number of factors. Body temperature may be subject to differential modification by different opioid receptor types. The authors examined the effect (i.c.v.) of the selective mu, delta and kappa opioid agonists, [D-Ala2, MePhe4, Gly5-ol] enkephalin (DAGO), [D-Pen2, D-Pen5] enkephalin and U50488H, respectively, on the body temperature of restrained and unrestrained rats. Each of the three opioid agonists produced a differentiable profile of body temperature changes. DAGO caused a primary decrease in body temperature of restrained rats and an increase in body temperature of unrestrained rats. The pretreatment dose of naloxone necessary to attenuate the hyperthermic response to DAGO of unrestrained rats was 10 times higher than that required to block the hypothermic response to DAGO in restrained rats. Low doses of both [D-Pen2, D-Pen5]enkephalin and U50488H caused a decrease in body temperature of both restrained and unrestrained rats. Hypothermic responses to U50488H were not blocked by naloxone, whereas hypothermic responses to [D-Pen2, D-Pen5]enkephalin in unrestrained rats were potentiated by naloxone. The results indicate that the three compounds modified body temperature by different means, suggesting activation of different opioid, and perhaps nonopioid, receptors. This may reflect a differential modulation of body temperature by endogenous opioids depending on the specific peptide released and the receptor type activated. Besides the physiologic implications, body temperature responses provided a sensitive pharmacologic measure for distinguishing the in vivo activity of different selective opioid agonists.     

Bereavement and remarriage for older adults

The purpose of this study was to assess differences in bereavement outcomes between surviving spouses aged 50 and over who remarried within 4-5 years and those who did not. Fifteen bereaved respondents out of 192 in a longitudinal prospective study who later remarried were compared with 15 other matched nonremarried respondents. Analyses of sociodemographic data, standardized measures of depression, life-satisfaction, resolution of grief, and self-perceived ratings of coping, stress, self-esteem, health and social support were performed with correlated t-tests. Statistically significant differences indicated that over time, the remarried subjects displayed more positive outcomes.     

Differentiation between rat brain and mouse vas deferens delta opioid receptors

Certain enkephalin analogues, including those which contain the conformationally restricted amino acid E-(2R,3S)-cyclopropylphenylalanine [2R,3S)-delta E Phe), have been shown to have high affinity for brain delta opioid receptors but are much less active in mouse vas deferens bioassays. To investigate whether there are differences between delta opioid receptors in brain and mouse was deferens, the ability of a selective delta opioid compound, [D-Pen2,pCl-Phe4,D-Pen5]enkephalin (pCl-DPDPE), and [D-Ala2,(2R,3S)-delta E Phe4,Leu5]enkephalin methyl ester (CP-OMe), to inhibit [3H]pCl-DPDPE binding in both rat brain and mouse vas deferens were measured. pCl-DPDPE recognized brain and mouse vas deferens binding sites with equal affinity, however, CP-OMe showed 33 fold lower affinity in mouse vas deferens compared to brain. This suggests that mouse vas deferens delta opioid receptors may be distinct from brain delta opioid receptors.