Erzsébet Szemenyei

β-Homo-amino Acid Scan of Angiotensin IV

Angiotensin IV, a metabolite of angiotensin II, inhibits the enzyme insulin regulated aminopeptidase or IRAP and also, although with lower potency, aminopeptidase-N (AP-N). When both beta (2)-homo amino acid- and beta (3)-homo amino acid substitutions were used, allowed the identification of H-( R)beta (2)hVal-Tyr-Ile-His-Pro-beta (3)hPhe-OH as a potent and stable Ang IV analog with high selectivity for IRAP versus AP-N and the AT1 receptor.

Angiotensin IV displays only low affinity for native insulin-regulated aminopeptidase (IRAP)

Radioligand binding studies revealed that Ang IV binds to insulin‐regulated aminopeptidase (IRAP)/’AT4 receptors’ with high affinity. Yet, as these experiments were routinely carried out in the presence of chelators, only the catalytic zinc‐depleted apo‐form of IRAP was labelled. While the chelators remove the catalytic zinc from IRAP and protect Ang IV from proteolytic degradation, the aminopeptidase N selective inhibitor ‘7B’ only exerts the latter effect. By using 7B along with the new stable Ang IV‐analog [3H]AL‐11, we here show that the native enzyme is only a low‐affinity target for Ang IV.

Detection of a novel immunoreactive endomorphin 2-like peptide in rat brain extracts

To pursue further the possible de novo biosynthetic pathway of endomorphins in rat brain we raised antibodies to endomorphin-2 conjugate in rabbits. Antiserum R1 recognized endomorphin-2 with good selectivity as compared to endomorphin-1 with a median detection value of 65.5+/-7.5 pg/tube (n=7), whereas R4 antiserum recognized both endomorphins with similar sensitivity. Neither antisera recognized YP-related di- or tripeptides or YGGF-related opioid sequences (enkephalins, beta-endorphin, dynorphin). Using the same rat brain extraction-RP-HPLC-gradient separation paradigm as previously, antisera detected 144.6+/-40.0 (n=3) pg/g wet brain weight endomorphin-2-like immunoreactivity in the fraction corresponding to standard endomorphin-2 retention time and also in the fraction matching endomorphin-2-OH standard retention time (179.1+/-30.1 pg/g). Since R1 failed to recognize authentic endomorphin-2-OH, the second immunoreactive species must be different from both endomorphin-2 and endomorphin-2-OH. Possible biosynthetic intermediates to endomorphins, synthetic YPFFG and YPWFG had retention times close to the parent endomorphin standards in RP-HPLC gradient separation profile. The former was a mu-opioid receptor agonist of medium potency in the in vitro assays (rat brain RBA&GTP gamma S binding and mouse vas deferens), whereas the latter was a weak mu-opioid receptor agonist with a significant delta-opioid receptorial action as well and a definite indication of partial agonism.