This paper derives the best linear unbiased predictor for a one-way error component model with serial correlation. A transformation derived by Baltagi and Li (1991) is used to show how the forecast can be easily computed from the GLS estimates and residuals. This result is useful for panel data applications which utilize the error component specification and exhibit serial correlation in the remainder disturbance term. Analytical expressions for this predictor are given when the remainder disturbances follow (1) an AR(1) process, (2) an AR(2) process, (3) a special AR(4) process for quarterly data, and (4) an MA(1) process.
The TL treatment regimen demonstrated higher efficacy with less overall toxicity in patients with advanced inoperable oesophageal cancer compared with the PF regimen. Further study is warranted to validate our current observations.
Most pro-neuropeptides are processed by the prohormone convertases, PC1 and PC2. We previously reported that changes in thyroid status altered anterior pituitary PC1 mRNA and this regulation was due to triiodothyronine (T 3 )-dependent interaction of thyroid hormone receptor (TR) with negative thyroid hormone response elements (nTREs) contained in a large region of the human PC1 promoter. In this study, we demonstrated that hypothyroidism stimulated, while hyperthyroidism suppressed, PC1 mRNA levels in rat hypothalamus and cerebral cortex, but not in hippocampus. In situ hybridization was used to confirm real-time PCR changes and localize the regulation within the hypothalamus and cortex. Using a human PC1 (hPC1) promoter construct (with and without deletions in two regions that each contain a negative TRE) transiently transfected into GH3 cells, we found that T 3 negatively regulated hPC1 promoter activity, and this regulation required both of these two regions. Electrophoretic mobility shift assays (EMSAs) using purified thyroid hormone receptor 1 (TR 1) and retinoid X receptor (RXR ) proteins demonstrated that RXR and TR both bound the PC1 promoter. Addition of TR 1/RXR to the wild-type PC1 probe demonstrated binding as both homodimers and a heterodimer. EMSAs with oligonucleotides containing deletion mutations of the putative nTREs demonstrated that the proximal nTRE binds more strongly to TR and RXR than the distal nTRE, but that both regions exhibit specific binding. We conclude that there are multiple novel TRE-like sequences in the hPC1 promoter and that these regions act in a unique manner to facilitate the negative effect of thyroid hormone on PC1.
Cells in noninfarct region remote from the scar are hypertrophied and display altered electrophysiology. Their reduced I(K) responsiveness to quinidine may explain, in part, failure of quinidine to prolong APD in such cells. Moreover, dispersion of repolarization may be decreased by the effect of quinidine on normal cells.
Through binding to its nuclear receptor (TR), thyroid hormone (T3) activates the expression of the thyroid hormone-responsive genes that are essential for the regulation of energy consumption. Previously, we found that free fatty acids (FFAs) and their CoA esters strongly inhibited the binding of T3 to its nuclear receptor in vitro. In the present study, we have examined the physiological relevance of this inhibitory mechanism. TRs in isolated nuclei and in a solubilized free form were half-maximally inhibited with oleic acid at 120 and 2.8 microM, respectively. The lower sensitivity of the nuclear TR as compared with free TR was attributed to the nuclear envelope and the association of TR with chromatin. Among TRs in chromatin, those in the transcriptionally active chromatin exhibited the highest sensitivities to FFAs and were inhibited half-maximally by oleic acid at 10 microM. While the plasma concentration of FFAs in total was 0.4 to 1 mM, their nuclear concentration was about 5 microM. Thus, the sensitivities of TRs in active chromatin and in solubilized form were at physiological levels with respect to the nuclear FFA concentration. We further examined the effect of FFA mobilization on the T3-binding to TR in animals. Nuclear T3-binding was significantly inhibited when plasma and cellular FFAs were increased by norepinephrine in vivo. The increase in cellular FFAs and the TR-inhibition were well correlated, and much larger in the heart than in the liver and kidney. These results suggest that TR is negatively controlled by increased FFAs in a tissue-dependent manner.
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