Your search keyword '"Grass D"' showing total 3 results

1. Overexpression of secretory phospholipase A(2) causes rapid catabolism and altered tissue uptake of high density lipoprotein cholesteryl ester and apolipoprotein A-I.

Author

Tietge, U J, Maugeais, C, Cain, W, Grass, D, Glick, J M, de Beer, F C, and Rader, D J

Abstract

Plasma levels of high density lipoprotein (HDL) cholesterol and its major protein component apolipoprotein (apo) A-I are significantly reduced in both acute and chronic inflammatory conditions, but the basis for this phenomenon is not well understood. We hypothesized that secretory phospholipase A(2) (sPLA(2)), an acute phase protein that has been found in association with HDL, promotes HDL catabolism. A series of HDL metabolic studies were performed in transgenic mice that specifically overexpress human sPLA(2) but have no evidence of local or systemic inflammation. We found that HDL isolated from these mice have a significantly lower phospholipid and cholesteryl ester and significantly greater triglyceride content. The fractional catabolic rate (FCR) of (125)I-HDL was significantly faster in sPLA(2) transgenic mice (4.08 +/- 0.01 pools/day) compared with control wild-type littermates (2.16 +/- 0.48 pools/day). (125)I-HDL isolated from sPLA(2) transgenic mice was catabolized significantly faster than (131)I-HDL isolated from wild-type mice after injection in wild-type mice (p < 0.001). Injection of (125)I-tyramine-cellobiose-HDL demonstrated significantly greater degradation of HDL apolipoproteins in the kidneys of sPLA(2) transgenic mice compared with control mice (p < 0.05). The fractional catabolic rate of [(3)H]cholesteryl ether HDL was significantly faster in sPLA(2)-overexpressing mice (6.48 +/- 0.24 pools/day) compared with controls (4.80 +/- 0.72 pools/day). Uptake of [(3)H] cholesteryl ether into the livers and adrenals of sPLA(2) transgenic mice was significantly enhanced compared with control mice. In summary, these data demonstrate that overexpression of sPLA(2) alone in the absence of inflammation causes profound alterations of HDL metabolism in vivo and are consistent with the hypothesis that sPLA(2) may promote HDL catabolism in acute and chronic inflammatory conditions.

Published

2000

2. Transgenic mice that overexpress mouse apolipoprotein B. Evidence that the DNA sequences controlling intestinal expression of the apolipoprotein B gene are distant from the structural gene.

Author

McCormick, S P, Ng, J K, Véniant, M, Borén, J, Pierotti, V, Flynn, L M, Grass, D S, ConnollyA, and Young, S G

Abstract

An 87-kilobase (kb) P1 bacteriophage clone (p649) spanning the mouse apolipoprotein (apo) B gene was used to generate transgenic mice that express high levels of mouse apoB. Plasma levels of apoB, low density lipoprotein cholesterol, and low density lipoprotein triglycerides were increased, and high density lipoprotein cholesterol levels were decreased in the transgenic mice, compared with nontransgenic littermate controls. Although p649 contained 33 kb of 5'-flanking sequences and 11 kb of 3'-flanking sequences, the tissue pattern of transgene expression was different from that of the endogenous apoB gene. RNA slot blots and RNase protection analysis indicated that the transgene was expressed in the liver but not in the intestine, whereas the endogenous apoB gene was expressed in both tissues. To confirm the absence of transgene expression in the intestine, the mouse apoB transgenic mice were mated with the apoB knockout mice, and transgenic mice that were homozygous for the apoB knockout mutation were obtained. Because of the absence of transgene expression in the intestine, those mice lacked all intestinal apoB synthesis, resulting in a marked accumulation of fats within the intestinal villus enterocytes. The current studies, along with prior studies of human apoB transgenic animals, strongly suggest that the DNA sequence element(s) controlling intestinal expression of the apoB gene is located many kilobases from the structural gene.

Published

1996

3. Regulation of protein synthesis in Tetrahymena. RNA sequence sets of growing and starved cells.

Author

Calzone, F J, Stathopoulos, V A, Grass, D, Gorovsky, M A, and Angerer, R C

Abstract

The complexity of messenger RNA in growing or starved Tetrahymena thermophila is similar and unusually high (approximately 4.5 X 10(7) nucleotides). The complexity of nuclear RNA in growing cells (approximately 7.8 X 10(7) nucleotides) is only about 1.7 times that of mRNA. The concentration of complex class (rare) messages (approximately 53 copies/growing cell and approximately 11 copies/starved cell) is low in comparison to the size of the cell. The concentration of complex nuclear transcripts is also very low (approximately 0.7 copies/growing cell nucleus and approximately 2.6 copies/starved cell nucleus) considering that the macronucleus contains 45 to 90 copies of each single copy sequence. The complex sequence sets found on polysomes of growing and starved cells overlap about 80% and about 60% of the complex nuclear transcripts appear to be held in common. About 60% of macronuclear single copy DNA is transcribed in one or both physiological states. Although growing and starved cells have extremely different fractions of their messages loaded onto polysomes, within each cell type the complex messages in polysomal and nonpolysomal cytoplasmic fractions are indistinguishable, suggesting that exchange may occur between loaded and unloaded messages. Although T. thermophila DNA has an unusually low G + C content (23%), sequences coding for complex RNAs have base ratios similar to those of total DNA. Therefore, codon usage in Tetrahymena must be extremely biased towards adenine- and uridine-rich codons.

Published

1983