Joe Attal

Association of the 5′ HS4 sequence of the chicken β‐globin locus control region with human EF1α gene promoter induces ubiquitous and high expression of human CD55 and CD59 cDNAs in transgenic rabbits

Whatever its field of application, animal transgenesis aims at a high level of reproducible and stable transgene expression. In the case of xenotransplantation, prevention of hyperacute rejection of grafts of animal origin requires the use of organs expressing human inhibitors of complement activation such as CD55 (DAF) and CD59. Pigs transgenic for these molecules have been produced, but with low and variable levels of expression. In order to improve cDNA expression, a vector containing the 5′HS4 region from the LCR of the chicken β‐globin locus and the promoter and the first intron from the human EF1α gene, was used to co‐express human CD55 and CD59 cDNAs in transgenic rabbits. The transgenic lines with the 5′HS4 region displayed dramatically enhanced CD55 and CD59 mRNA concentrations in brain, heart, kidney, liver, lung, muscle, spleen and aortic endothelial cells in comparison with the transgenic lines without the 5′HS4 region. In the absence of the 5′HS4 region, only some of the transgenic lines displayed specific mRNAs and at low levels. Human CD55 and CD59 proteins were detectable in mononuclear cells from transgenic rabbits although at a lower level than in human mononuclear cells. On the other hand, primary aortic endothelial cells from a bi‐transgenic line were very efficiently protected in vitro against human complement‐dependent lysis. Transgenic rabbits harbouring the two human inhibitors of complement activation, CD55 and CD59, can therefore be used as new models in xenotransplantation. Moreover, the vector containing the 5′HS4 region from the LCR of the chicken β‐globin locus seems appropriate not only for xenotransplantation but also for any other studies involving transgenic animals in which cDNAs have to be expressed at a high level in all cell types.

Internal ribosome entry sites (IRESs): reality and use

IRESs are known to recruit ribosomes directly, without a previous scanning of untranslated region of mRNA by the ribosomes. IRESs have been found in a number of viral and cellular mRNAs. Experimentally, IRESs are commonly used to direct the expression of the second cistrons of bicistronic mRNAs. The mechanism of action of IRESs is not fully understood and a certain number of laboratories were not successful in using them in a reliable manner. Three observations done in our laboratory suggested that IRESs might not work as functionally as it was generally believed. Stem loops added before IRESs inhibited mRNA translation. When added into bicistronic mRNAs, IRESs initiated translation of the second cistrons efficiently only when the intercistronic region contained about 80 nucleotides, and they did not work any more effectively with intercistronic regions containing at least 300–400 nucleotides. Conversely, IRESs inserted at any position into the coding region of a cistron interrupted its translation and initiated translation of the following cistron. The first two data are hardly compatible with the idea that IRESs are able to recruit ribosomes without using the classical scanning mechanism. IRESs are highly structured and cannot be scanned by the 40S ribosomal subunit. We suggest that IRESs are short‐circuited and are essentially potent stimulators favoring translation in particular physiological situations.

The RU5 ('R') region from human leukaemia viruses (HTLV-1) contains an internal ribosome entry site (IRES)-like sequence.

RNA fragments containing the complete R region and the beginning of the U5 region (‘R’) from the human T cell leukaemia virus 1 (HTLV‐1) stimulated the translation of the second cistrons in bicistronic mRNAs. The 5′ untranslated region from SV40 early genes (SU) which was unable to stimulate translation of second cistrons amplified markedly the internal ribosome entry site (IRES) effect of the HTLV‐1 ‘R’ fragments. The ‘R’ regions from HTLV‐1 have therefore properties similar to internal ribosome entry sites (IRES) originally found in picornavirus. The beginning of the U5 region from HTLV‐1 contains a polypyrimidine sequence which is known to play an essential role in the IRES activity in picornavirus. The same experiments carried out using the ‘R’ region from bovine leukaemia virus (BLV) showed that this sequence has at most a weak IRES effect. One retroviruses HTLV‐1 and perhaps others contain therefore an IRES activity. Interestingly, the combined SU ‘R’ sequence worked efficiently with different cistrons, different promoters and in all tested cell lines, whereas the poliovirus IRES was active in CHO cells but not in the mouse mammary cell line HC11. The SU ‘R’ sequence may therefore preferably be used to generate active bicistronic mRNAs.

The optimal use of IRES (internal ribosome entry site) in expression vectors

In higher eucaryotes, natural bicistronic mRNA have been rarely found so far. The second cistron of constructed bicistronic mRNAs is generally considered as not translated unless special sequences named internal ribosome entry site (IRES) are added between the two cistrons. These sequences are believed to recruit ribosomes independently of a cap structure. In the present report, a new IRES found in the HTLV-1 genome is described. A systematic study revealed that this IRES, but also the poliovirus (polio) and the encephalomyocarditis virus (EMCV) IRES work optimally when they are added about 100 nucleotides after the termination codon of the first cistron. Unexpectedly, these IRES became totally inefficient when added after 300-500 nucleotide spacers. This result and others are not compatible with the admitted mechanism of IRES action. The IRES appear to be rather potent translation stimulators. Their effects are particularly emphasized in cells in which the normal mechanism of translation initiation is inhibited. For these reasons, we suggest to call IRES rescue translation stimulators (RTS).

Gene expression following transfection of fish cells

Various genes containing different transcriptional regulatory elements (TRE) and the bacterial marker gene coding for chloramphenicol acetyl transferase were transfected into several fish cell lines to evaluate the efficiency of expression in comparison with mammalian cells. The CMV and RSV TRE were the most efficient non-inducible promoters in directing reporter gene expression. RSV and CMV appeared of similar potency in a stable fish cell line. The human HSP-70 promoter showed high potency in a carp and in a trout cell line after thermal induction. This promoter also induced the synthesis of human growth hormone directed by the corresponding cDNA, but not by the gene. RSV TRE was also able to drive the synthesis of bovine growth hormone when attached directly to the cDNA but not to the gene. These data suggest that non-fish gene TRE can be used to express foreign genes in fish cells or transgenic fish; however, in most cases they are relatively inefficient. The data also suggest that the translation and secretion machinery of fish cells can express efficiently foreign genes but that mammalian introns might be not processed properly in some cases.

Cloning, transcription and chromosomal localization of the porcine whey acidic protein gene and its expression in HC11 cell line

The whey acidic protein (WAP) is the major whey protein of rodent, rabbit and camel. Recently, it was identified in the milk of swine (Simpson et al., 1998. J. Mol. Endocrinol. 20, 27-35). In this paper, the cloning of the pig WAP cDNA and of bacterial artificial chromosome (BAC) construct containing the entire porcine WAP gene is reported. The comparison of the coding sequence of the pig WAP gene to rodent or lagomorph WAP sequence already published demonstrated that only exon sequences are partially conserved. The porcine WAP gene was localized on the subtelomeric region of the chromosome 18. The estimation of the expression of the swine WAP gene in the mammary gland from lactating animals revealed a high level of expression. In order to compare the expression level of the porcine WAP gene from the large genomic fragment which contained 70 kb downstream and 50 kb upstream the pig WAP gene or the smaller one (1 kb downstream and 2.4 kb upstream), these two genomic fragments were transfected in HC11 cell line. The BAC construct was expressed 15 times higher than the plasmid when reported to the integrated copy number. This report suggests that the HC11 cell line is a useful tool to identify the regulatory sequences of milk protein genes.

A simple method of DNA extraction from whole tissues and blood using glass powder for detection of transgenic animals by PCR

A very simple and reliable method to extract DNA directly from mouse tail, rabbit ear and blood is described. Tissue was homogenized in a solution of NaI and the DNA was extracted using glass powder. The extracted DNA was obtained in sufficient quantity and purity to allow direct detection of transgene by PCR.

Hypodermin A, a new inhibitor of human complement for the prevention of xenogeneic hyperacute rejection

Abstract: Background: Hyperacute rejection (HAR) of discordant xenografts in the pig‐to‐human combination can be prevented using tranplants expressing transgenic molecules that inhibit human complement. Hypodermin A (HA), a serine esterase that degrades C3, was tested in the guinea‐pig‐to‐rat and in the pig‐to‐human combinations.

The insulator effect of the 5'HS4 region from the β-globin chicken locus on the rabbit WAP gene promoter activity in transgenic mice

Previous studies have shown that the 5′HS4 DNaseI hypersensitive site of the chicken β-globin locus is endowed with classic insulator activities: (i) it blocks the interaction between promoter and enhancers when it is inserted between them (ii) it confers expression of integrated foreign genes independent of their position in the chromatin. The aim of this present work was to determine whether the 5′HS4 element was able to stimulate the expression level and/or to increase the expression frequency of a luc+ reporter gene controlled by the rabbit WAP gene promoter. Two constructs with 5′HS4 insulator (p5′HS4-WAPluc) or without (pWAPluc) were introduced in mouse fertilised oocytes. All transgenic lines containing the 5′HS4 element (six lines) expressed the transgene whereas only two out of eight lines harbouring the pWAP-luc construct expressed the transgene to a significant level. Moreover, the mean level of expression was seven times higher in p5′HS4WAP-luc lines than in pWAP-luc lines. Even all these benefits on transgene expression, the 5′HS4 element did not confer a copy-dependent expression, did not decrease the ectopic expression of the reporter gene and did not decrease the variability of expression. Thus, the 5′HS4 element does not have all the properties of a perfect insulator on a construct containing the luc+ reporter gene controlled by the rabbit WAP promoter.

The efficiency of different IRESs (Internal Ribosomes Entry Site) in monocistronic mRNAS

The IRES from poliovirus and from encephalomyocarditis virus (EMCV) added between the cap and the AUG initiator codon were strong inhibitors of chloramphenicol acetyltransferase gene expression in three different cell types. The poliovirus IRES also inhibited bGH (bovine growth hormone) cDNA expression in the HC11 mammary cell line when added between the rabbit whey acidic gene promoter and the cDNA whereas the HTLV-1 IRES showed a stimulatory effect in the same situation. RNA stem loops were added before HTLV-1 (SUR) and the BiP (Immunoglobulin heavy-chain Binding Protein) IRESs followed by the firefly luciferase gene under the control of Rous sarcoma virus (RSV) promoter. The RNA loops abolished the expression of the reporter gene almost completely. These data suggest that the different IRESs may favour or inhibit translation of monocistronic mRNA.