AI Article Synopsis
- The expression of tyrosine aminotransferase in fetal rats is significantly lower than in adults and does not respond to glucocorticoids, but can be slightly increased by cyclic AMP.
- After birth, there is a rapid increase in both mRNA and enzyme levels, peaking at 12 hours before declining to adult levels within 24 hours.
- The ability to respond to glucocorticoids develops postnatally, and factors like antiglucocorticoid steroids or glucose can suppress the immediate postnatal increase, but do not affect the overall rise from fetal to adult levels.
Article Abstract
Expression of the hepatic enzyme tyrosine aminotransferase was analyzed in the perinatal period of development in the rat, when this expression undergoes significant changes associated with hepatocyte differentiation. In late prenatal liver both enzyme and functional mRNA gene products are present at levels 10- to 15-fold below those in the fully differentiated adult liver. This low level of expression in fetal liver is refractory to induction by glucocorticoids, but both gene products are increased to a limited extent by cyclic AMP. This induction by cyclic AMP (cAMP) does not confer glucocorticoid-responsiveness on expression. By 3 hr after birth both functional mRNA and enzyme levels are significantly increased, an increase which continues until a peak is reached at 12 hr that is appreciably above the adult levels. Both gene products then decline until adult levels are reached by 24 hr. The postnatal shift in aminotransferase expression is accompanied by acquisition of the capacity to respond to glucocorticoids. Treatment of newborns with an antiglucocorticoid steroid or with glucose suppresses the postnatal overshoot of expression, but neither treatment affects the increase from fetal to adult levels of expression. The results indicate that prior to birth, expression of the aminotransferase gene is partially repressed, a repression that is lifted essentially immediately upon birth. The hormones capable of inducing aminotransferase synthesis have no apparent necessary role in this process.
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| http://dx.doi.org/10.1002/jcb.240210107 | DOI Listing |
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