Diabetes, Vol 43, Issue 1 127-136, Copyright © 1994 by American Diabetes Association

ARTICLES

Identification in islets of Langerhans of a new rat alpha 2-adrenergic receptor

SY Wang and DT Pilkey
Gerontology Division, Beth Israel Hospital, Boston, MA 02215.

The islets of Langerhans are richly innervated, and an inhibitory effect on insulin secretion, mediated through alpha 2-adrenergic receptors, appears to be an important physiological neural modulator of beta-cell function. An alpha 2-receptor was cloned from isolated newborn rat islets using a polymerase chain reaction (PCR) approach. This receptor was shown by sequencing to be a new rat alpha 2-receptor very similar to the human alpha 2-C2 receptor. No other alpha 2-receptor subtype was identified in normal islets by the PCR using alpha 2-receptor primers. This was also the only alpha 2-receptor subtype present in the exocrine pancreas and liver. In contrast, in the beta-cell line, beta TC3, the alpha 2-C2 receptor was not detected, but the alpha 2-C4 and alpha 2-C10 receptor subtypes were detected. It is suggested that the alpha 2-C2 subtype may be the principal alpha 2-receptor mediating inhibitory autonomic nervous system activity in the gastrointestinal tract. A comparison of the rat islet, pancreas, and liver alpha 2-receptor sequences reported here with previously reported alpha 2-receptor sequences indicates that the rat islet alpha 2-receptor is not the rat alpha 2-C2 homologue previously denoted as RNG alpha 2, but is a new, fourth rat subtype with an even higher similarity to the human alpha 2-C2 receptor.
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