Differential Loss in Function of Angiotensin II Receptor Subtypes During Tissue Storage

Moulik, Sabyasachi, Speth, Robert C., Rowe, Brian P.

10 March 2000

In vitro receptor autoradiography was performed on rat brain and kidney sections stored frozen at -20°C for extended time periods (17, 40, 64, 121, 183, 251, and 333 days). The results indicate that prolonged tissue storage has a differential effect upon125I sar1ile8 angiotensin II binding to AT1 and AT2 receptor sites. Binding at AT1 receptor rich tissues studied (renal medulla, renal cortex, anterior pituitary, ventral hippocampus, spinal trigeminal nucleus, and nucleus of the solitary tract) shows a first order exponential decay pattern. The logarithmic linear regression slope (log(e) specific binding versus time), is significantly different from zero (p<0.05) in all AT1 rich tissues except for nucleus of the solitary tract (p=0.086). There is no detected loss of 125I sar1ile8 angiotensin II binding at the AT2 prominent regions in the superior colliculus, medial geniculate nucleus, and the inferior olivary nucleus. The half lives of AT1 receptors are highly variable, ranging from 36 days in the anterior pituitary to 442 days in the nucleus of the solitary tract, and this might be related to variable stability of AT(1A) and AT(1B) receptors. These observations should be taken into account when assessing and comparing AT1 and AT2 receptor subtype densities.

angiotensin II

AT receptor 2

in vitro receptor autoradiography

rat

receptor

tissue storage

Biomedical Sciences

Sulfhydryl Reducing Agents Distinguish Two Subtypes of Angiotensin II Receptors in the Rat Brain

Speth, Robert C., Rowe, Brian P., Grove, Kevin L., Carter, Michelle R., Saylor, David

10 May 1991

Two angiotensin II receptor subtypes were distinguished in the rat brain using in vitro receptor autoradiography based on the differential effects of sulfhydryl reducing agents on 125I-sarcosine1, isoleucine8 angiotensin II binding in various brain nuclei. At several nuclei, e.g. the hypothalamus, circumventricular organs and the dorsal medulla, 125I-sarcosine1, isoleucine8 angiotensin II binding was strongly inhibited by 30 mM β-mercaptoethanol or 5 mM dithiothreitol, whereas at other nuclei, e.g. the lateral septum, colliculi, locus coeruleus and medial amygdala, sulfhydryl reducing agents had either little effect on radioligand binding or enhanced the binding. The distribution of the sulfhydryl reducing agent inactivated subtype corresponds exactly with the distribution of DuP 753 sensitive (designated as AIIα) 125I-sarcosine1, isoleucine8 angiotensin II binding sites25. The subtype not inhibited by sulfhydryl reducing agents corresponds with the DuP 753 insensitive (designated as AIIβ) sites in the brain25. The sulfhydryl reducing agent effect on brain angiotensin II receptor subtypes is similar to that seen in angiotensin II receptor subtypes in peripheral tissues. These observations indicate that many previous studies of brain angiotensin II receptor binding that included 5 mM dithiothreitol in the assay medium overlooked the sulfhydryl reducing agent inactivated (AIIα) receptor subtype.

125 1 8 I-Sarcosine

isoleucine angiotensin II

angiotensin II receptor

dithiothreitol

in vitro receptor autoradiography

rat

receptor subtype

sulfhydryl reducing agent

β-Mercaptoethanol

Biomedical Sciences