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Query: EC:2.7.7.49 (reverse transcriptase)
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In order to provide information concerning gene expression and regulation in the preimplantation mammalian embryo, and to explore the roles of metallothionein (MT) during this period of development, the constitutive and metal-induced MT mRNA levels in mouse ova, preimplantation embryos, and oviducts were determined. These results were correlated with the effects of transient exposure to high levels of metals (zinc (Zn) or cadmium (Cd] on the continued development of preimplantation embryos into blastocysts in culture. RNA from preimplantation mouse embryos at different stages of development (Days 1 through 4 of gestation; D1 = vaginal plug) was analyzed using the reverse transcriptase-polymerase chain reaction (RT-PCR) to specifically amplify MT-I and MT-II mRNA transcripts. MT-I mRNA in ova, preimplantation embryos, and oviducts was detected using in situ hybridization. This mRNA in the oviduct was also analyzed by Northern blotting. The results establish that the mouse MT genes are coordinately and constitutively expressed at low basal levels in ova and preimplantation mouse embryos. In unfertilized (ova), fertilized (one-cell) eggs, and two-cell embryos, the MT-I gene was not detectably responsive to metal ions, whereas in later cleavage stage embryos (four- and eight-cell) the MT-I gene was detectably responsive to metals in some blastomeres of some of the embryos. In contrast, after the third cleavage this gene was highly metal-inducible in essentially all cells of the embryo (morula/blastocyst). Surprisingly, the appearance of metal responsiveness of the MT genes during development correlated with decreased Zn toxicity and increased Cd toxicity; two-cell embryos were Zn-sensitive and Cd-resistant, whereas eight-cell and older embryos were Zn-resistant and Cd-sensitive. In the oviduct, MT-I mRNA was not abundant in total RNA, but was detected specifically in the epithelial cells of the isthmus region and was elevated in these cells on D3 and D4 of gestation. In the oviduct, only isthmus epithelial cells responded to metals (Zn or Cd) by increased accumulation of this mRNA. These studies suggest that preimplantation mouse embryo develops the capacity to respond to metals in the environmental milieu by induction of MT gene expression at about the third cleavage. Whether the lack of responsiveness of these genes before this stage reflects transcriptional repression or attenuated metal ion influx and/or enhanced efflux remains to be determined. Sensitivity and resistance of preimplantation embryos to acute metal toxicity involve mechanisms other than MT gene expression in preimplantation mouse embryos.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metallothionein gene expression and metal regulation during preimplantation mouse embryo development (MT mRNA during early development). 201 19

A general procedure has been developed for the determination of mRNA expression by reverse transcription polymerase chain reaction (RT-PCR), over a wide concentration range, with quick quantitation of amplified products by luminescence. The discriminating power of this approach is the specific hybridization of PCR product to ruthenium-labeled oligonucleotide probe(s). This method is sensitive enough to detect increases in the formation of PCR product by the 6th cycle. The accumulation of PCR product was successfully modeled with a recursive relationship. This procedure was capable of accurately determining starting template copies over a 9-log dynamic range, with a sensitivity limit of 10(2) copies. Inclusion of an mRNA internal standard (identical to amplified template except for a 6-bp deletion) corrected variabilities in the reverse transcriptase as well as PCR, allowing for the expression of data as mRNA copy number/micrograms total tissue RNA. This procedure was used to detect changes in levels of winter flounder (Pleuronectes americanus) liver metallothionein mRNA. Liver metallothionein mRNA levels ranged from 1.0 x 10(6) copies/micrograms total tissue RNA in control samples to 1.0 x 10(9) copies/micrograms total tissue RNA in samples treated with Cd (a known metallothionein mRNA inducer).
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PMID:Quantitation of metallothionein mRNA by RT-PCR and chemiluminescence. 753 Sep 81

Xenopus laevis embryos were analyzed for metallothionein by silver-saturation assay and metallothionein-mRNA by reverse transcriptase/polymerase chain reaction following exposures to the following metal chlorides at levels that caused > 95% malformations and < 7% mortality: Zn2+ (300 microM); Cd2+ (18 microM); Ni2+ (56 microM); Co2+ (1,800 microM); and Cu2+ (5.6 microM). At the beginning of the exposure (stages 8), metallothionein-mRNA and metallothionein levels averaged 2.0 x 10(6) copies/embryo and 19 pmol/embryo, respectively. In control embryos at stages 26, 36, 42, and 46, metallothionein-mRNA content averaged 9, 37, 104, and 97 copies x 10(6)/embryo, and metallothionein content averaged 6, 11, 15, and 18 pmol/embryo. In Zn(2+) -exposed embryos at the same stages, metallothionein-mRNA content averaged 116*, 11,400*, 3,210*, and 14 copies x 10(6)/embryo and metallothionein content averaged 10, 18*, 46*, and 90* pmol/embryo; in Cd(2+)-exposed embryos, metallothionein-mRNA content averaged 22, 7,170*, 1,783*, and 240 copies x 10(6)/embryo and metallothionein content averaged 8, 14, 33*, and 56* pmol/embryo, respectively (*P < 0.05 versus controls). Exposure-response curves (Cd2+, 1-18 microM; Zn2+, 3-300 microM) indicated that Cd2+ was 3- to 5-times more potent than Zn2+, based on metallothionein-mRNA response at stage 36 and metallothionein response at stage 46. In Ni(2+)-, Co(2+)-, or Cu(2+)-exposed embryos, metallothionein-mRNA and metallothionein contents did not differ significantly from controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of teratogenic exposures to Zn2+, Cd2+, Ni2+, Co2+, and Cu2+ on metallothionein and metallothionein-mRNA contents of Xenopus embryos. 761 42

The turkey metallothionein gene (tkMT) was isolated from a phage lambda-turkey genomic DNA library by virtue of high identity with chicken MT cDNA. The nucleotide sequences of the proximal 240 bp of the 5'-flanking region, of each of the three exons, and of the intron/exon boundaries were determined. Comparisons of the nucleotide sequences of the tkMT and cMT genes revealed (1) absolute conservation of intronic DNA immediately flanking each respective intron/exon boundary, (2) high conservation (95.6%) of exonic DNA encoding translated regions of the mRNA, and (3) high conservation (95%) of exonic DNA encompassing the putative transcription start point and polyadenylation signals. Sequence comparisons of the tkMT and cMT promoters regions near the TATA box revealed that both promoters contain a highly conserved proximal metal-responsive enhancer (MRE-enhancer) motif. The deduced amino acid sequence (63 amino acids) of tkMT was identical with that of cMT. In order to further explore the degree of conservation of the protein coding regions of avian MT genes, partial MT cDNAs from turkey, quail (qMT), and pheasant (pMT) were amplified using the reverse transcriptase-polymerase chain reaction (RT-PCR) and primers corresponding to the amino- and carboxyl-terminal coding regions of cMT mRNA. RT-PCR reaction products were cloned and the DNA sequences of multiple cDNA clones from each species were determined. The results suggest the existence of a single MT mRNA in zinc-treated liver from turkey and pheasant and the existence of a major and possibly a minor MT mRNA in quail.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evolution of avian metallothionein: DNA sequence analyses of the turkey metallothionein gene and metallothionein cDNAs from pheasant and quail. 848 64

The organization of the metallothionein (MT) gene family has been demonstrated to be much more complex in humans than in the mouse, and possibly rodents in general. For humans, the MTs are encoded by a family of genes located at 16q13 representing 10 functional and 7 non-functional MT isoforms. In the present study, the 5' and 3' untranslated region sequences of the highly conserved, functional MT genes were utilized to generate primer pairs for the analysis of isoform-specific MT mRNA using reverse transcriptase-polymerase chain reaction (RT-PCR). Human kidneys from 13 weeks gestation through adulthood were examined for the expression of MT protein and mRNA. Immunohistochemical analysis demonstrated MT immunoreactivity to be confined exclusively to the proximal tubules of the adult and developing kidney. For all MT-positive cells, MT was localized in the cytoplasm and nuclear localization was variable. There was no correlation between nuclear staining and stage of development. Of the 10 MT genes examined (MT-1A, MT-1B, MT-1E, MT-1F, MT-1G, MT-1H, MT-1X, MT-2A, MT-3, and MT-4), mRNAs representing the MT-1E, MT-1F, MT-1X, and MT-2A genes were consistently expressed in all samples regardless of gestational age. There was no indication of a 'fetal form' of MT analogous to that noted to occur in human liver. Messenger RNA for the MT-1A gene was detected in 2 of 6 renal samples without correlation to gestational age. In no instance was mRNA for the MT-1B, MT-1G, MT-1H, MT-3 or MT-4 genes detected. These studies detail the initial determination of MT gene expression in the human renal system and provide the PCR primers for testing and determination of MT gene expression in other organ systems.
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PMID:Isoform-specific expression of metallothionein mRNA in the developing and adult human kidney. 861 55

Regulation of gene expression by zinc is well established, especially through the metal response elements of the metallothionein genes; however, most other aspects of the functions of zinc in gene expression remain unknown. We have looked for intestinal mRNAs that are regulated by dietary zinc status. Using the reverse transcriptase-PCR method of mRNA differential display, we compared intestinal mRNA from rats that were maintained for 18 days in one of three dietary groups: zinc-deficient, zinc-adequate, and pair-fed zinc-adequate. At the end of this period, total RNA was prepared from the intestine and analyzed by mRNA differential display. Under these conditions, only differentially displayed cDNA bands that varied in the zinc-deficient group, relative to the zinc-adequate groups, were selected. Utilizing two anchored oligo-dT3' PCR primers and a total of 27 arbitrary decamers as 5' PCR primers, our results yielded 47 differentially displayed cDNA bands from intestinal RNA. Thirty were increased in zinc deficiency, and 17 were decreased. Nineteen bands were subcloned and sequenced. Eleven of these were detectable on Northern blots, of which four were confirmed as regulated. Three of these have homology to known genes: cholecystokinin, uroguanylin, and ubiquinone oxidoreductase. The fourth is a novel sequence as it has no significant homology in GenBank. The remainder of those cloned included novel sequences, as well as matches to reported expressed sequence tags, and functionally identified genes. Further characterization of the regulated sequences identified here will show whether they are primary or secondary effects of zinc deficiency.
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PMID:Differential display of intestinal mRNAs regulated by dietary zinc. 869 9

The rat prostate is composed of two anatomically well-defined regions designated as the ventral prostate (VP) and the dorsolateral prostate (DLP). VP and DLP are known to exhibit marked cytological, biochemical, and functional differences including differential susceptibilities to carcinogens. While the VP is uniquely susceptible to cadmium carcinogenicity [1,2], the DLP is sensitive to sex hormone-induced cancer [3,4]. The role played by the heavy metal binding protein, metallothionein (MT), in the prostate is largely unknown. It is still controversial as to whether MT is expressed in the rat gland. The aim of the present study is to examine the expression pattern of MT mRNA in the rat gland and its probable regulation by heavy metal ions and sex hormones, in order to gain insight into the biological function of MT in the prostate. Northern hybridization and reverse transcriptase-polymerase chain reaction analyses revealed constitutive expression of MT mRNA in the DLP and a lack of expression of the transcript in the VP. In situ hybridization localized the transcript to the epithelium of the DLP, with the lateral prostate epithelium exhibiting the highest level of expression. Administration of cadmium and zinc failed to induce MT transcription in the VP, nor were these treatments effective in elevating levels of MT mRNA in the DLP. A 60% reduction in MT message levels was observed in the DLP following orchiectomy. MT transcript levels in the DLPs of castrates were restored by readministration of androgen to the animals. Long-term treatments (16 weeks) of rats with estradiol-17 beta (E2) or testosterone (T) plus E2 induced a 2.8-fold and a 5-fold increase in MT message content in the DLP, respectively. In sum, MT mRNA was shown to be absent in the VP and was not inducible by heavy metal ions or hormones in this prostatic lobe. These findings substantiate the belief that MT plays a role in heavy metal detoxification and deficiency in its expression may contribute to the unique susceptibility of the VP to cadmium carcinogenicity. By contrast, constitutive expression of MT was demonstrated in the DLP, which was shown to be regulated by androgen and not by exogenously administered heavy metal ions. These results suggest a participatory role of MT in the normal functioning of the DLP. The fact that high levels of MT mRNA were induced in the DLP following long-term estrogenic or conjoint androgenic-estrogenic action alludes to the possibility that MT may serve as an intracellular antioxidant in DLP cells.
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PMID:Expression and regulation of metallothionein mRNA levels in the prostates of noble rats: lack of expression in the ventral prostate and regulation by sex hormones in the dorsolateral prostate. 870 Aug 5

The role of metallothionein with regard to cadmium toxicity in vitro was investigated using preimplantation mouse blastocysts derived from a transgenic strain that constitutively overexpresses metallothionein-I transgenes (MT-I*). Northern blot and in situ hybridization revealed high levels of MT-I mRNA in transgenic blastocysts when compared with control blastocysts, and reverse transcriptase-polymerase chain reaction-amplified MT-I mRNA was almost exclusively MT-I*. Moreover, pulse-labeling experiments showed that the relative rate of synthesis of MT was 9-fold higher in transgenic blastocysts. Cadmium (Cd2+) toxicity was assessed after incubating blastocysts for 4 hr in Whitten's medium containing 50 microM Cd2+. Embryos that displayed abnormal morphology were judged "sensitive". Transgenic blastocysts were more resistant to cadmium-induced morphological changes than were control blastocysts. "Sensitive" and "resistant" blastocysts were individually genotyped by polymerase chain reaction, or they were transferred to foster mothers, and embryonic development to midterm was monitored. Of the blastocysts derived from mating heterozygous transgenic males with control females, 56% were transgenic before incubation with Cd2+, whereas 95% of the blastocysts that retained normal morphology after incubation were transgenic. Moreover, after Cd2+ exposure, transgenic blastocysts with normal morphology were nine times more likely to develop to midterm than were control blastocysts with normal morphology. Blastocysts with abnormal morphology failed to develop to midterm. These studies indicate that MT plays a central role in protection from Cd2+ toxicity within the physiological context of the developing mouse embryo.
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PMID:Transgenic mouse blastocysts that overexpress metallothionein-I resist cadmium toxicity in vitro. 882 13

Porcine metallothionein III (MTIII) was isolated from brain tissue by the combination of gel filtration and anion-exchange chromatographies. The identity of MTIII was confirmed by comparing the chromatographic characteristics to other MT isoforms isolated from porcine liver. Porcine MTIII has a low molecular weight and a pl of 4.1. This protein contains both zinc and copper, and the zinc can be replaced by cadmium. Using reverse transcriptase-polymerase chain reaction, a 0.2 kb DNA fragment can be amplified from the porcine brain mRNA. This DNA fragment was demonstrated to contain MTIII coding region after cloning and sequencing. The revealed DNA sequence can be translated into 68 amino acids and shows a common structural characteristic of MTIII from other species. Northern blot analysis indicated that MTIII and mRNA is expressed in every specified region of the porcine brain examined here.
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PMID:Identification and characterization of metallothionein III (growth inhibitory factor) from porcine brain. 889 30

Icefish (family Channichthyidae, suborder Nothothenioidei) are a group of Antarctic fish that have evolved unique phenotypes in order to adapt to the environment in which they live. Besides the lack of haemoglobin and the drastic reduction in the number of erythrocyte-like cells, another striking feature of the icefish is that their liver is devoid of metallothionein. These cysteine-rich heavy-metal-binding proteins are usually present in large amounts in a large variety of organisms, from bacteria to mammals. Despite the failure to detect appreciable levels of metallothionein in icefish liver, a cDNA encoding metallothionein was produced from total RNA by reverse transcriptase PCR. The icefish metallothionein showed high percentage identity with metallothionein from Trematomus bernachii, a red-blooded Antarctic fish in which a normal content of hepatic metallothionein was found. Steady-state mRNA levels were assessed in fish liver by high-stringency hybridization of the metallothionein probe with total RNA. The results showed that icefish livers retain large amounts of untranslated metallothionein mRNA. The stability of the icefish transcript might be correlated with the lack of specific motifs in the untranslated 3' ends of mRNA.
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PMID:Difference in hepatic metallothionein content in Antarctic red-blooded and haemoglobinless fish: undetectable metallothionein levels in haemoglobinless fish is accompanied by accumulation of untranslated metallothionein mRNA. 907 63


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