Thyroid hormone receptors are encoded by the TR␣ (NR1A1) and TR (NR1A2) loci. These genes are transcribed into multiple variants whose functions are unclear. Analysis by gene inactivation in mice has provided new insights into the functional complexity of these products. Different strategies designed to modify the TR␣ locus have led to strikingly different phenotypes. In order to analyze the molecular basis for these alterations, we generated mice devoid of all known isoforms produced from the TR␣ locus (TR␣ 0/0 ). These mice are viable and exhibit reduced linear growth, bone maturation delay, moderate hypothermia, and reduced thickness of the intestinal mucosa. Compounding TR␣ 0 and TR ؊ mutations produces viable TR␣ 0/0  ؊/؊ mice, which display a more severe linear growth reduction and a more profound hypothermia as well as impaired hearing. A striking phenotypic difference is observed between TR␣ 0/0 and the previously described TR␣ ؊/؊ mice, which retain truncated TR⌬␣ isoforms arising from a newly described promoter in intron 7. The lethality and severe impairment of the intestinal maturation in TR␣ ؊/؊ mice are rescued in TR␣ 0/0 animals. We demonstrate that the TR⌬␣ protein isoforms, which are natural products of the TR␣ locus, are the key determinants of these phenotypical differences. These data reveal the functional importance of the non-T3-binding variants encoded by the TR␣ locus in vertebrate postnatal development and homeostasis.
The fear-potentiated startle paradigm has been used with great success to examine conditioned fear in both rats and humans. The purpose of the present experiment was to extend the authors' previous findings and further validate the fear-potentiated startle paradigm in mice. In Experiments 1 and 2, C57BL/6J mice were given Pavlovian fear conditioning with either an auditory or a visual conditioned stimulus. Similar to data collected with rats, fear-potentiated startle was observed for both stimulus modalities. In Experiment 3, posttraining lesions of the amygdala disrupted fear-potentiated startle in both conditioned stimulus modalities. These data are consistent with amygdala lesion studies in rats and suggest that fear-potentiated startle in mice requires an intact amygdala. Together, these results extend the authors' previous results and provide the basis for using this well-understood behavioral paradigm for examining the molecular mechanisms of conditioned fear in transgenic and knockout mice.
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