Fractionation and characterization of normal rabbit plasma proteins

1. An adaptation of the low-temperature low-salt ethanol procedure for the fractionation of rabbit plasma proteins into six fractions is described. 2. The composition of the fractions and the distribution of haptoglobins, caeruloplasmin and transferrin were determined. The protein and protein-bound carbohydrate distribution in the fractions is similar to that of human plasma proteins separated by a similar procedure. 3. The purification of albumin, α₁-acid glycoprotein, transferrin and γ-globulin was carried out.     

Effect of histamine and histamine blockers on the ovulatory process in the vitro perfused rabbit ovary

An increase in the content of histamine in the ovary following luteinizing hormone (LH) release and the inhibition of ovulation in the rabbit by antihistamines suggest that histamine may be involved in the ovulatory process. The effects of various doses of histamine and antihistamines on ovulation were investigated using the in vitro perfused rabbit ovary system. Histamine (100 ng/ml) added to the perfusate at hourly intervals induced ovulation, although at a rate below that observed following human chorionic gonadotropin (hCG) administration. Cimetidine (10 micrograms/ml), an H2 blocker, inhibited histamine-induced ovulation, while the H1 blocker, chlorpheniramine (66.7 micrograms/ml), failed to do so. Neither cimetidine nor chlorpheniramine was able to block ovulation following hCG (50 IU). In all experimental groups in which histamine was used to induce ovulation, both extruded ova and follicular oocytes remained in an immature stage and displayed little evidence of degeneration. In contrast, a high percentage of ova exposed to hCG were mature. Ovarian edema was increased in ovaries in which ovulation occurred, regardless of treatment. A linear correlation was noted between ovulatory efficiency and degree of ovarian edema. Histamine may be an intermediary in the mechanism of follicular rupture, but does not support ovum maturation. However, the inability of H1 and H2 antagonists to block hCG-induced ovulation raises questions regarding the role of histamine in the physiologic process of ovulation.     

Effect of antihistaminics on bradykinin action]

On isolated ileum of the guinea pig the antihistamine drugs dimedrol, diprazin (pipolphen), tavegil and suprastin diminished spasmogenic effects of bradykinin and an enhancement of microvascular permeability induced by this polypeptid. The antihistamine drugs display a nonspecific antibradykinin activity. No relationship between the chemical structure and pronounced antibradykinin action of the antihistamines studied was revealed.     

Effect of histamine receptor antagonists and indomethacin on implantation in the rabbit

Anti-inflammatory drugs were given to pregnant rabbits during the 24-h period prior to the increase in the uterine vascular permeability which occurs on Day 7. Their effect on the vascular response was monitored by quantifying the concentration of extravascular Evans blue dye. The increase in vascular permeability normally seen on Day 7 was inhibited by either indomethacin or a combination of H1-(mepyramine) and H2-(cimetidine) receptor antagonists. When given alone, neither cimetidine nor mepyramine was as effective as the combination in reducing vascular permeability. Prostaglandins and histamine may be acting together since simultaneous administration of lower doses of indomethacin and the antihistamines reduced vascular permeability below that observed following administration of either class of anti-inflammatory drugs alone. In a second experiment, anti-inflammatory drugs were administered during the peri-implantation period (Days 6-8) and their effect on the weights of maternal and fetal tissues, and on fetal viability were evaluated on Day 14 of pregnancy. Indomethacin had a more deleterious effect on both parameters than did the combination of histamine receptor antagonists. Results from these experiments suggest that both prostaglandins and histamine may participate in the uterine vascular response, whereas the overall process of implantation appears to be more dependent upon the synthesis of prostaglandins than the action of histamine.