Y. Motohashi et al., LACTASE DECLINE IN WEANING RATS IS REGULATED AT THE TRANSCRIPTIONAL LEVEL AND NOT CAUSED BY TERMINATION OF MILK INGESTION, The Journal of nutrition, 127(9), 1997, pp. 1737-1743
Lactase activity declines during postnatal development in rats, but li
ttle is known about the underlying molecular mechanism of this phenome
non. We attempted to clarify whether the regulation was at the transcr
iptional or post-transcriptional level and to examine the effects of d
ietary factors on that regulation. Newborn rats were divided into two
groups, prolonged nursing and weaning, at d 21. The prolonged nursing
rats were nursed for a further 6 d, whereas weaning rats were separate
d from their dams and fed nonpurified diet for the same period. The pa
tterns of declining lactase protein and mRNA concentrations during wea
ning were determined by Western blot and Northern blot analyses, respe
ctively, and compared with lactase activity. There were significant (P
< 0.001) correlations between them: r = 0.97 for specific activity vs
. protein, r = 0.99 for specific activity vs. mRNA and r = 0.96 for pr
otein vs. mRNA. The lactase activity per milligram DNA showed a patter
n similar to that of the specific activity. This result argues against
the decline in lactase activity being due to the dilution caused by n
ewly synthesized materials during the weaning period and suggests tran
scriptional regulation. Furthermore, the prolonged nursing rats showed
the same results as weanlings for lactase protein, mRNA, specific act
ivity and activity per milligram DNA. These observations indicate that
the regulation of lactase expression is at the transcriptional level
and that it is not affected by the termination of milk ingestion.