Inhibition of retinol oxidation by ethanol in the rat liver and colon.

BACKGROUND: Epidemiological evidence has been presented for an increased risk of development of colon cancer after chronic alcohol abuse. Alcohol is degraded by cytosolic alcohol dehydrogenases that also are capable of retinol oxidation. Inhibition of retinol oxidation to retinoic acid has been shown to occur in parallel with profound impairment of intracellular retinoid signal transduction and loss of cell differentiation control. AIMS: In the present study, the change in cytosolic retinol oxidation and retinoic acid formation by ethanol concentrations that occur in body tissues in humans after social drinking was measured in cells from the liver, and small and large intestine of the rat. RESULTS: The specific catalytic efficiency V(max)/K(m) (ml/min/g) of cytosolic retinol oxidation in the large intestine (28.9) was found to be distinctly higher than that in the liver (3.4), while the efficiency in the small intestine was negligible (0.20). In the presence of increasing ethanol concentrations (9, 17, and 34 mM), V(max)/K(m) for retinol oxidation decreased in a dose dependent manner to 7.8% of the initial value in the large intestine and to 12% in the liver. The V(max)/K(m) of retinoic acid formation in the liver cytosol decreased to 15%. CONCLUSIONS: Our data demonstrate impairment of hepatic and intestinal cytosolic retinol oxidation and retinoic acid formation by ethanol at concentrations in body tissues after social drinking in humans. The results suggest that the increased risk of developing colorectal neoplasias after alcohol abuse may, at least in part, be caused by impaired retinoid signal transduction.

Strategy for detecting cellular transcripts promoted by human endogenous long terminal repeats: identification of a novel gene (CDC4L) with homology to yeast CDC4.

Several families of repetitive sequences related to integrated retroviruses have been identified in the human genome. The largest of these families, the RTVL-H family, has close to 1000 members in addition to a similar number of solitary long terminal repeats (LTRs) dispersed on all chromosomes. Previous work has shown that the expression of genomic RTVL-H elements is driven by their LTRs and that some LTRs can promote expression of a reporter gene. These observations suggest that some endogenous RTVL-HLTRs may naturally regulate the transcription of adjacent cellular genes or that rearrangements involving these elements may cause aberrant gene expression. To investigate this possibility, we have used a differential screening strategy to identify chimeric cDNA clones derived from LTR-promoted transcripts. Here we report the identification and analysis of four such clones isolated from an NTera2D1 (teratocarcinoma) cDNA library. Two of the clones, AF-1 and AF-2, contain termination codons in all reading frames. Another clone, AF-4, contains LTR sequences linked in the genome to a CpG island. The fourth clone, AF-3, contains an 862-bp open reading frame representing part of a novel gene (CDC4L) with homology to the yeast cell division cycle gene CDC4. These findings indicate that RTVL-H elements may be involved in the regulation of diverse cellular transcripts in human cells.

SV40 large T antigen trans-activates the long terminal repeats of a large family of human endogenous retrovirus-like sequences.

The Simian Virus 40 (SV40) large T antigen (T) is required for the initiation of viral replication, the autoregulation of early gene expression, and the activation of late gene expression in productively infected cells. In addition to these roles, T has been implicated in the transcriptional activation of a variety of viral and cellular promoters. We have used the chloramphenicol acetyltransferase (CAT) reporter gene system to study the effect of T on the long terminal repeats (LTRs) of a large family of human endogenous retrovirus-like sequences, RTVL-H. Here we show that T can activate expression from certain RTVL-H LTRs 5- to 30-fold. Competition experiments in which an excess of plasmid containing only an RTVL-H LTR was cotransfected with an LTR-CAT reporter gene construct confirmed that this effect is specific for RTVL-H sequences. Restriction enzyme analysis using methylation-sensitive enzymes has shown that this activation is not due to plasmid replication. We have also observed this trans-activation effect in two CV-1 cells lines containing stably integrated LTR-CAT constructs. These results demonstrate that a known transforming protein can alter the transcriptional capabilities of RTVL-H LTRs. As there are approximately 3000 related LTRs in the genomes of humans and other primates, these findings suggest that a large number of these promoters and their associated transcripts may be transcriptionally stimulated by this and other oncogens.

Functional heterogeneity of a large family of human LTR-like promoters and enhancers.

The human genome contains a variety of elements similar in structure to retroviruses and retrotransposons. We have shown that the long terminal repeat (LTR) sequences of a large family of human retrovirus-like elements, RTVL-H, are heterogeneous in their ability to regulate the expression of linked genes. Although all of five LTRs tested could promote expression of the chloramphenicol acetyltransferase (CAT) gene, their relative promoter activities as well as range of activities varied widely. Several of the LTRs tested also exhibited bidirectional promoter activity either alone or when activated by an SV40 early enhancer. One LTR, H6, displayed strong promoter activity in human (NTera2D1, 293, Hep2), monkey (COS-1), and mouse (3T3) cells. In fact, the activity of this LTR was similar to that of the SV40 early promoter/enhancer in 293, COS-1, and 3T3 cells. RNA mapping studies have localized the transcription start site to the expected location in the H6 LTR. RTVL-H LTRs were also shown to contain sequences which could increase transcription from the human beta-globin promoter and be influenced by SV40 enhancer sequences. As the human genome contains several hundred related RTVL-H sequences and a similar number of solitary LTRs, these findings raise the possibility that RTVL-H LTRs could have diverse effects on the expression of adjacent cellular genes.