Genetic isolation of a region of chromosome 8 that exerts major effects on blood pressure and cardiac mass in the spontaneously hypertensive rat.

The spontaneously hypertensive rat (SHR) is the most widely studied animal model of essential hypertension. Despite > 30 yr of research, the primary genetic lesions responsible for hypertension in the SHR remain undefined. In this report, we describe the construction and hemodynamic characterization of a congenic strain of SHR (SHR-Lx) that carries a defined segment of chromosome 8 from a normotensive strain of Brown-Norway rats (BN-Lx strain). Transfer of this segment of chromosome 8 from the BN-Lx strain onto the SHR background resulted in substantial reductions in systolic and diastolic blood pressure and cardiac mass. Linkage and comparative mapping studies indicate that the transferred chromosome segment contains a number of candidate genes for hypertension, including genes encoding a brain dopamine receptor and a renal epithelial potassium channel. These findings demonstrate that BP regulatory gene(s) exist within the differential chromosome segment trapped in the SHR-Lx congenic strain and that this region of chromosome 8 plays a major role in the hypertension of SHR vs. BN-Lx rats.

Mapping of quantitative trait loci for blood pressure and cardiac mass in the rat by genome scanning of recombinant inbred strains.

In the HXB and BXH recombinant inbred strains derived from the spontaneously hypertensive rat and the normotensive Brown Norway rat, we determined the strain distribution patterns of 500 genetic markers to scan the rodent genome for quantitative trait loci regulating cardiac mass and blood pressure. The markers spanned approximately 1,139 cM of the genome and were tested for correlations with left ventricular mass adjusted for body weight, and with systolic, diastolic, and mean arterial pressures. The marker for the dopamine 1A receptor (Drd1a) on chromosome 17 showed the strongest correlation with left ventricular heart weight (P = .00038, r = -0.59) and the relationship to heart weight was independent of blood pressure. The markers showing the strongest correlations with systolic, diastolic, and mean arterial pressure were D19Mit7 on chromosome 19 (P = .0012, r = .55), D2N35 on chromosome 2 (P = .0008, r = .56), and Il6 on chromosome 4 (P = .0018, r = .53), respectively. These studies demonstrate that the HXB and BXH strains can be effectively used for genome scanning studies of complex traits and have revealed several chromosome regions that may be involved in the genetic control of blood pressure and cardiac mass in the rat.

The Sp6 locus uses several promoters and generates sense and antisense transcripts.

The SP/KLF transcription factor family contains over 25 members sharing a DNA-binding domain composed of three zinc fingers of the C(2)H(2) type. We previously identified the sixth member of the SP subfamily (Sp6). The 5' end of the Sp6 transcript was not cloned and was predicted bioinformatically. A mouse molar tooth cDNA was then isolated differing from the Sp6 sequence by its 5' end, and was named epiprofin. Sp6 and epiprofin are currently used as synonyms. Here, we show that the Sp6 transcript possesses a first exon distinct from the epiprofin one: the Sp6 gene thus uses two promoters, generating two transcript variants which differ in their first exon. Furthermore, we identified an Sp6 opposite strand transcript (Sp6os) and examined, by quantitative RT-PCR experiments, the presence and the abundance of these two transcripts in mouse tissues. We also mapped the mouse locus by FISH to chromosome 11D.

Rat gene mapping in the post-genome sequencing era: the continued utility of cell hybrids to localize rat genes (Cks2, Ephb4, Fabp5, Il13ra1, Rpl10, Ssr4).

Finding the position of a gene is now easily done when the genome sequence is available: the gene position is generally found by a simple query of genomic databases such as those available at the Ensembl browser or the NCBI. We were interested in determining the position of 125 cancer-related rat genes and we found that the position of most of these genes (110) could indeed be identified in this manner. However, in 15 cases, the gene position was not available in these databases, or the results were ambiguous. We then explored a more specialized database, namely the Rat Genome Database, and experimentally mapped these genes using standard and radiation cell hybrids. The 15 genes in question could be localized unambiguously. In four cases, the radiation cell hybrids were indispensable: the sequence of these four genes could not be found in the rat genome sequence. On the basis of the sample we examined, it thus appears that a classical gene mapping method is still required to localize about 3% of the rat genes, as if 3% of the rat gene sequences were lacking in the current rat genome sequence.

Exposure to oestrogen prenatally does not interfere with the normal female-typical development of odour preferences.

The neural mechanisms controlling mate recognition and heterosexual partner preference are sexually differentiated by perinatal actions of sex steroid hormones. We previously showed that the most important action of oestrogen during prenatal development is to defeminise and, to some extent, masculinise brain and behaviour in mice. Female mice deficient in alpha-foetoprotein (AFP) due to a targeted mutation in the Afp gene (AFP-KO) do not show any female sexual behaviour when paired with an active male because they lack the protective action of AFP against maternal oestrogens. In the present study, we investigated whether odour preferences, another sexually differentiated trait in mice, are also defeminised and/or masculinised in AFP-KO females due to their prenatal exposure to oestrogens. AFP-KO females of two background strains (CD1 and C57Bl/6j) preferred to investigate male over female odours when given the choice between these two odour stimuli in a Y-maze, and thus remained very female-like in this regard. Thus, the absence of lordosis behaviour in these females cannot be explained by a reduced motivation of AFP-KO females to investigate male-derived odours. Furthermore, the presence of a strong male-directed odour preference in AFP-KO females suggests a postnatal contribution of oestrogens to the development of preferences to investigate opposite-sex odours.

Spontaneous and 5-azacytidine-induced reexpression of ornithine carbamoyl transferase in hepatoma cells.

Rat hepatoma cells that do not synthesize the hepatic enzyme ornithine carbamoyl transferase spontaneously give rise to producing cells at a low frequency. Reexpression of this differentiation trait is strongly increased by 5-azacytidine treatment, suggesting that hypermethylation plays a critical role in the impaired expression of the ornithine carbamoyl transferase gene in hepatoma cells.

Regulation of the alpha-fetoprotein promoter: Ku binding and DNA spatial conformation.

This work shows that the proximal promoter of the mouse Afp gene contains a Ku binding site and that Ku binding is associated with down-regulation of the transcriptional activity of the Afp promoter. The Ku binding site is located in a segment able to adopt a peculiar structured form, probably a hairpin structure. Interestingly, the structured form eliminates the binding sites of the positive transcription factor HNF1. Furthermore, a DNAse hypersensitive site is detected in footprinting experiments done with extracts of AFP non-expressing hepatoma cells. These observations suggest that the structured form is stabilised by Ku and is associated with extinction of the gene in AFP non-expressing hepatic cells.

Identification of an enhancer and an alternative promoter in the first intron of the alpha-fetoprotein gene.

In this study we have characterized a positive regulatory region located in the first intron of the alpha-fetoprotein (AFP) gene. We show that the enhancer activity of the region depends on a 44 bp sequence centered on a CACCC motif. The sequence is the target of the two zinc fingers transcription factors BKLF and YY1. The introduction of a mutation destroying the CACCC box impairs the binding of BKLF but improves that of YY1. Moreover, the mutated sequence behaves as a negative control element, suggesting that BKLF behaves as a positive factor and that YY1 is a negative one. We also demonstrate the existence of a novel, tissue-specific AFP mRNA isoform present in the yolk sac and fetal liver which initiates from an alternative promoter located approximately 100 bp downstream of the enhancer element. The transcriptional start site controlled by this new promoter (called P2), was mapped to 66 bp downstream of a TATA box. A putative AUG translation site in-frame with exon 2 of the classical gene was found 295 bp downstream of the transcription start site. Like the traditional AFP promoter (P1), the P2 promoter is active in the yolk sac and fetal liver. Embryonic stem cells with an AFP knock-in gene containing either the P2 promoter or deleted for it were isolated and comparative analysis of embryonic bodies derived from these cells suggests that the P2 promoter contributes to early expression of the AFP gene.

Physiological role of the putative ammonium transporter RhCG in the mouse.

Ammonium excretion into urine is a major process essential to the regulation of acid-base homeostasis. We have shown that Rh-type proteins, including renal RhCG, belong to the Mep/Amt family of ammonium transporters and promote bi-directional ammonium transport upon heterologous expression in yeast. To study the physiological role of RhCG and to test a potential function in ammonium excretion, we have generated mice bearing an invalidation of the corresponding gene.

Differential regulation of normal and tumor alpha 1-fetoprotein genes in fetal hepatocyte x hepatoma hybrids.

Fetal rat hepatocytes and mouse hepatoma cells actively expressing alpha 1-fetoprotein (AFP) and albumin genes were fused with the use of Sendai virus, and the expression of normal (rat) and tumor (mouse) AFP and albumin genes was analyzed in hybrid clones. The tumor AFP gene and both albumin genes were active in 103 hybrids. Expression of the normal fetal rat AFP gene, however, was maintained in only 3 hybrids, and it was frequently lost or decreased selectively upon subcloning. Furthermore, the normal AFP gene, when expressed, was more reactive than the tumor AFP gene to repression by a glucocorticosteroid hormone. These results suggest constitutive differences in the manner an oncofetal gene is activated and regulated in normal and neoplastic states. AFP gene expression in normal hepatocytes appears to be subordinated to a differentiation program degenerated and bypassed in hepatoma cells.

Independent amplification of two gene clusters on chromosome 4 in rat endometrial cancer: identification and molecular characterization.

The BDII rat is genetically predisposed to hormone-dependent endometrial adenocarcinoma and was used to model human cancer. Tumors arising spontaneously in strain crosses involving BDII rats were analyzed by means of comparative genome hybridization. The most common aberration was amplification of the proximal region of rat chromosome 4, centered around bands q12-q22. The copy numbers of 15 cancer-related genes from the region were examined in tissue cultures of 11 endometrial carcinomas (10 endometrial adenocarcinomas and 1 endometrial squamous cell carcinoma) and one peritoneal mesothelioma. Amplification in rat chromosome 4 was detected in six tumors (50%), five of which carried two separate amplified regions, situated at 4q12-q13 and 4q21-q22, interrupted by a nonamplified segment at 4q13-q21.1. The genes Cdk6 (cyclin-dependent kinase 6) and Met (hepatocyte growth factor receptor) were located in the core of each amplified region and were amplified most recurrently and at the highest levels among the genes tested. Using fluorescence in situ hybridization on tumor metaphases, it was observed that the amplified Cdk6 and Met sequences were situated on typical homogeneously staining regions (HSRs). In three tumors, both genes were amplified in the same HSRs, whereas in two tumors, the amplified sequences of each gene were situated in separate HSRs. In addition, Cdk6 and Met amplification was consistently associated with a corresponding increase in gene expression, suggesting that the two genes might represent the targets for the amplifications. In the sixth tumor, which carried amplified sequences of Met but not of Cdk6, coexpression of Met and the normally silent hepatocyte growth factor gene (Hgf; the ligand of Met) was observed. This finding suggests that an autocrine signaling circuit might be operating in this particular tumor. Taken together, our findings suggest that up-regulation of Cdk6 and/or Met may contribute to the development of endometrial cancers in the BDII rat.

Genetic identification of Mcs-1, a rat mammary carcinoma suppressor gene.

Women have inherited differences in their susceptibility to breast cancer, but the genes underlying this variation are difficult to identify. We have approached the problem of identifying breast cancer susceptibility genes by using a rat model. Inbred rat strains display differential susceptibilities to mammary carcinogenesis; the Copenhagen (COP) rat is resistant, while the Wistar-Furth (WF) rat is susceptible to induction of mammary tumors by 7,12-dimethylbenz[a]anthracene. Genetic breeding studies have shown that tumor resistance in the COP rat is a dominant phenotype, termed the rat mammary carcinoma suppressor trait. As a step toward defining the basis of this resistance, we undertook genetic mapping of this phenotype in a (WF x COP)F1 x WF backcross by studying a large collection of microsatellite and minisatellite polymorphisms. A total of 114 genetic markers, covering approximately 75% of the rat genome, were genotyped in the backcross progeny. A marker on rat chromosome 2 was found to show linkage to the resistance phenotype. Genetic linkage was demonstrated both in a qualitative analysis (in which rats were defined as resistant if they developed 0 tumors and sensitive if they developed two or more tumors; LOD score, 4.0) and in a quantitative trait locus analysis (in which tumor number was used as the quantitative phenotype; LOD score, 3.8). We infer the existence of a gene, Mcs-1, on rat chromosome 2 that suppresses mammary carcinogenesis.

Chromosomal assignment of five cancer-associated rat genes: two thyroid hormone receptor (ERBA) genes, two ERBB genes and the retinoblastoma gene.

Using a panel of somatic cell hybrids that segregate rat chromosomes, the localization of five cancer-related rat genes was determined: (i) two thyroid receptor genes, THRA1/ERBA1 and THRB/ERBA2 on chromosomes 10 and 15 respectively, (ii) two ERBB genes, namely the epidermal growth factor gene (EGFR, also called ERBB1) and the ERBB2 gene (also designated neu) on chromosomes 14 and 10 respectively, and (iii) the retinoblastoma gene, RB1, on chromosome 15. The THRA1/ERBA1 and ERBB2/neu genes are thus included in a synteny group, conserved on rat chromosomes 10 and human chromosome arm 17q.

Kzf1 - a novel KRAB zinc finger protein encoding gene expressed during rat spermatogenesis.

Two novel KRAB (Krüppel associated box) type zinc finger protein encoding cDNAs, named Kzf1 and Kzf2 (Kzf for KRAB zinc finger), were identified by screening of a rat embryonic brain cDNA library with a human ZNF91 KRAB probe. Kzf1 and Kzf2 encode proteins with an amino-terminal KRAB domain and a carboxy-terminal zinc finger cluster containing 9 and 13 zinc finger units, respectively. While Kzf2 appears to be ubiquitously expressed, Kzf1 is preferentially expressed in the testis. Within the testis, Kzf1 mRNA is restricted to germ cells. The Kzf1 protein exhibits DNA binding activity and its KRAB domain can function as a repressor module in transcription. Using somatic cell hybrid analysis, the Kzf1 gene was mapped to chromosome 6.

Rat adrenoleukodystrophy-related (ALDR) gene: full-length cDNA sequence and new insight in expression.

X-linked adrenoleukodystrophy (X-ALD) is an inherited demyelinating disorder due to mutations in the ALD gene, which encodes a peroxisomal ABC half-transporter (ALDP). It has been suggested that ALDP assembles with ALDRP (adrenoleukodystrophy-related protein), a close homologous half-transporter, to form a functional heterodimer. For the first time full-length ALDRP cDNA (5.5 kb) was cloned, and 5' and 3' RACE analysis revealed that alternative usage of polyadenylation sites generates the two transcripts of 3.0 and 5.5 kb observed in the rat in Northern blot analysis. Southern blotting and chromosomal mapping demonstrated one ALDR locus in the rat genome. Characterisation of the 3' flanking region suggested that an ID sequence might be responsible for high expression of the 5.5 kb ALDRP transcript in rat brain. ALDR gene expression was found to be high in the liver of rats before weaning and very low in adult rats; the reverse developmental regulation was observed in the brain. Fenofibrate, which is a potent inducer of the ALDR gene in the liver of adult rats, could not induce the ALDR gene in suckling rats. The exact significance of this result with regard to development of an efficient pharmacological gene therapy for X-ALD is discussed.

Right ventricular hypertrophy secondary to pulmonary hypertension is linked to rat chromosome 17: evaluation of cardiac ryanodine Ryr2 receptor as a candidate.

BACKGROUND: Fischer 344 (F344) rats are relatively resistant to hypoxia-induced right ventricular (RV) hypertrophy compared with the Wistar-Kyoto (WKY) strain. These 2 strains were used to examine the genetic basis for the differential response. METHODS AND RESULTS: Male F(2) offspring from an F344xWKY intercross were exposed to hypoxia (10% O(2)) for 3 weeks, and pulmonary artery pressure and cardiac chamber weights were measured. Genomic DNA was screened by use of polymorphic microsatellite markers across the whole genome (excluding the sex chromosomes). A quantitative trait locus (QTL) for RV weight was identified on rat chromosome 17 (lod score 6.5) that accounted for 22% of the total variance of RV weight in the F(2) population and was independent of pulmonary artery pressure. The peak was centered over marker D17Rat41, close to Chrm3, with a 1-lod support interval of 5 cM. Comparison of homologous regions in mice and humans suggested that Ryr2, the cardiac isoform of the ryanodine receptor, colocalizes with our QTL. A panel of somatic cell hybrids and fluorescence in situ hybridization mapped Ryr2 close to the gene Chrm3 within our QTL. [(3)H]Ryanodine binding to cardiac membranes from the parental strains showed a 21% reduction in B(max) in the WKY compared with the F344 strain, with no difference in K:(d). CONCLUSIONS: These data provide the first demonstration of a QTL linked to the RV response to hypoxia-induced pulmonary hypertension. The Ryr2 receptor gene lies within this QTL and merits further investigation as a candidate for this differential RV response.

Chromosome evolution of MMU16 and RNO11: conserved synteny associated with gene order rearrangements explicable by intrachromosomal recombinations and neocentromere emergence.

Comparative mapping between the rat and mouse genomes has shown that some chromosomes are entirely or almost entirely conserved with respect to gene content. Such is the case of rat chromosome 11 (RNO11) and mouse chromosome 16 (MMU16). We determined to what extent such an extensive conservation of synteny is associated with a conserved gene order. Therefore, we regionally localized several genes on RNO11. The comparison of the gene map of RNO11 and MMU16 unambiguously shows that the gene order has not been conserved in the Murinae lineage, thereby implying the occurrence of intrachromosomal evolutionary rearrangements. The transition from one chromosome configuration to the other one can be explained either by two intrachromosomal recombinations or by a single intrachromosomal recombination accompanied by neocentromere emergence.

Genetic analysis of susceptibility to endometrial adenocarcinoma in the BDII rat model.

Most cancers are genetically complex and heterogeneous, a serious obstacle to identifying specific genes underlying the disease. If inbred animal models are used, then both the genetic constitution and environmental influences can be carefully controlled. Females of the BDII inbred rat strain are genetically predisposed to endometrial cancer; more than 90% of virgin BDII females will develop endometrial adenocarcinoma (EAC) during their life span. BDII females were crossed to males from inbred strains with low EAC incidence (SPRD or BN). When F(1) males were backcrossed to BDII females to generate N(1) populations of offspring, about one fourth of the female progeny developed EAC. With transmission disequilibrium test analysis, significant association was detected in three chromosomal regions (on RNO1, RNO11, and RNO17) in the SPRD crosses and in the short arm of RNO20 in the BN crosses. It appears that several susceptibility genes with minor but cooperating effects are responsible for the susceptibility. Furthermore, it seems clear from the interstrain crosses not only that the onset of tumors depends on the presence of susceptibility alleles from the EAC-prone BDII strain, but also that tumor development is affected by the contribution of a genetic component derived from the nonsusceptible strains.

Defective protein kinase C-mediated actions in cystic fibrosis neutrophils.

Neutrophils from cystic fibrosis (CF) patients have been shown previously to be defective in their response (beta-glucuronidase exocytosis, NADPH oxidase activation) to the chemotactic peptide FMLP. In this work, we attempted to identify the defective step in this response. We showed that stimulated CF and control neutrophils do not differ in the formation of inositol phosphates. On the other hand, direct stimulation of protein kinase C with phorbol myristate acetate (PMA) revealed a subnormal stimulation of beta-glucuronidase exocytosis in CF neutrophils. Furthermore, retroinhibition exerted by PMA-activated protein kinase C on stimulated inositol phosphates or on beta-glucuronidase exocytosis was marginal or absent in CF neutrophils, whereas it was significant in the case of control neutrophils. Our observations suggest that the CFTR gene is expressed in neutrophils and is involved in protein kinase C-mediated actions.

C/EBP and c-JUN proteins activate the proximal enhancer of the developmentally regulated alpha-fetoprotein gene.

The expression of the alpha-fetoprotein (AFP) gene is developmentally regulated. Active transcription of this gene depends on a proximal enhancer sequence located between positions D-203 bp and -81 bp, upstream the initiation site. This enhancer contains several putative binding sites for transcription factors. By transfection experiments, we showed that the enhancer activity can be driven by interactions with two regulatory factors, namely C/EBP and c-JUN.