Ester Piccinni

Motor Apparatus of Euglena Gracilis: Ultrastructure of the Basal Portion of the Flagellum and the Paraflagellar Body

Abstract The intracytoplasmic origin of the flagella in Euglena gracilis is described with particular regard to the transitional zone. Our observations are compared with those reported for Entosiphon. The structure of the paraflagellar body has been studied by diphractometric analysis. The PFB of Euglena may be described as a crystal with a monoclinic or slightly distorted hexagonal unit cell with dimensions: a = 8.9 nm; b = 7.7 nm; c = 8.3 nm; 0 = 110°.

Cadmium metallothionein gene of Tetrahymena pyriformis.

A genomic sequence from Tetrahymena pyriformis, encoding a cadmium-induced metallothionein has been cloned. The gene encodes a transcript of 487 bases, with an intronless coding region of 324 nt, using TGA as the stop codon, TAA coding for glutamine, and the translational initiation sequence AAAATGG. Two regions of internal similarity in the coding sequence support the hypothesis that the Tetrahymena protein arose by gene duplication. The sequences of untranslated regions show some similarities with nematode MT-1 and MT-2 transcripts. Sequence of 525 bases upstream of the transcription start contains a TATA box, a CAAT box reverse complement, and many short stretches partially matching the AP-1 and ACE-1 binding sites, but no characteristic sequences found in other metallothionein promoters.

Metal interaction and regulation of Tetrahymena pigmentosa metallothionein genes.

The patterns of expression of two metallothionein (MT) genes, MT-1 and MT-2, previously identified as Cd-MT and Cu-MT, were analysed in Tetrahymena pigmentosa in response to metal inducers cadmium, copper and zinc and to a mixture of copper and cadmium at appropriate concentrations. Co-treatment induces synergistic accumulation of both metals and higher expression of MT-mRNAs in the first few hours. mRNA levels were observed not to completely correlate with MT-protein levels, suggesting that post-transcriptional regulation may be involved in MT induction. MT-1 is induced to higher levels than MT-2. Zinc does not induce any MT expression. The lowest level of mRNA was observed for MT-2, induced only by copper. Cadmium is a powerful inducer of the MT-1 gene, although a very low transcription rate by copper occurs in the first hour.

Response to heavy metals in organisms—I. Excretion and accumulation of physiological and non physiological metals in Euglena gracilis☆

Abstract Euglena gracilis was cultured with different concentrations of an essential metal and a non essential one: Cu and Cd. Cu even at high concentrations did not affect the growth rate, while Cd reduced it according to the concentration used. Cu concentration stayed always lower in the cells than in the medium, instead Cd was accumulated in the cells. From cells and medium of cultures treated with copper a glycopeptide which chelated copper and zinc was isolated. It was present in the control culture too, but it linked only Zn; its molecular weight is lower than 10,000 D. From cells cultured with Cd a compound of a very high molecular weight (higher than 100,000 D) was isolated: it linked Cd and Zn. The concentration of Zn in the medium and in the cells linked to the compounds is also discussed, and a model is proposed for regulation of physiological metals in organisms; it may explain how detoxification relates to regulation of heavy metals.

Metallothionein Gene from Tetrahymena thermophila with a Copper-Inducible-Repressible Promoter

ABSTRACT We describe a novel metallothionein gene from Tetrahymena thermophila that has a strong copper-inducible promoter. This promoter can be turned on and off rapidly, making it a useful system for induction of ectopic gene expression in Tetrahymena and enhancing its applications in cell and molecular biology, as well as biotechnology.

Cadmium-thionein in Tetrahymena thermophila and Tetrahymena pyriformis.

The treatment of Tetrahymena thermophila with cadmium causes a reduction in growth rate according to dose; almost all the metal is accumulated in the cytosol where the Zn content is also increased threefold. Bio-Gel and Water 160 (HPLC) column chromatography show that Cd and Zn are bound to a protein with an ultraviolet (UV) spectrum that appears to be similar to that of Cd-metallothioneins isolated by higher organisms, but its molecular weight is greater: about 28 000 D, comparable to that of metallothionein isolated from Tetrahymena pyriformis. Further purification of these proteins by ion exchange chromatography revealed the presence of two peaks, considered as two isoforms of the metallothioneins present in both T. thermophila and T. pyriformis (MT 1 and MT 2). Their amino acid analyses confirmed that they are different isometallothioneins, MT 1 and MT 2, with about 30% cysteine, and aspartic acid, glycine and lysine as major amino acids. From our analyses we may conclude that Tetrahymena pyriformis MTs are similar to those present in invertebrates and vertebrates, while Tetrahymena thermophila MTs are peculiar in that they have cyclic amino acid histidine in both MT 1 and MT 2; furthermore, aromatic amino acid phenylalanine is also present in MT 2.

Identification, cloning and characterisation of a novel copper-metallothionein in tetrahymena pigmentosa. Sequencing of cDNA and expression.

The protist Tetrahymena pigmentosa accumulates large amounts of metal ions, particularly cadmium and copper. This capability is linked to the induction of metallothioneins (MTs), cysteine-rich metal-binding proteins found in protists, plants and animals. The present study focuses on a novel inducible MT-isoform isolated from Tetrahymena after exposure to a non-toxic dose of copper. The cDNA sequence was determined utilising the partial peptide sequence of purified protein. The Cu-MT cDNA encodes 96 amino acids containing 28 cysteine residues (29%) arranged in motifs characteristic of the metal-binding regions of vertebrate and invertebrate MTs. Both the amino acid and nucleotide sequences differ, not only from other animal MTs, but also from the previously characterised Tetrahymena Cd-MT. Both MTs contain the structural pattern GTXXXCKCXXCKC, which may be proposed as a conservative sequence of Tetrahymena MTs. Cu-dependent regulation of MT expression was also investigated by measuring MT-mRNA and MT levels. MT synthesis occurs very quickly and MT contents increase with Cu accumulation. The induction of Cu-MT mRNA is very rapid, with no observable lag period, and is characterised by transient fluctuation, similar to that described for Cd-MT mRNA. The data reported here indicate that, also in the unicellular organism Tetrahymena, two very different MT isoforms, which perform different biological functions, are expressed according to the inducing metal, Cu or Cd.

Characterization and transcription studies of a phytochelatin synthase gene from the solitary tunicate Ciona intestinalis exposed to cadmium

The major thiol-containing molecules involved in controlling the level of intracellular ROS in eukaryotes, acting as a nonenzymatic detoxification system, are metallothioneins (MTs), glutathione (GSH) and phytochelatins (PCs). Both MTs and GSH are well-known in the animal kingdom. PC was considered a prerogative of the plant kingdom but, in 2001, a phytochelatin synthase (PCS) gene was described in the nematode Caenorhabditis elegans; additional genes encoding this enzyme were later described in the earthworm Eisenia fetida and in the parasitic nematode Schistosoma mansoni but scanty data are available, up to now, for Deuterostomes. Here, we describe the molecular characteristics and transcription pattern, in the presence of Cd, of a PCS gene from the invertebrate chordate Ciona intestinalis, a ubiquitous solitary tunicate and demonstrate the presence of PCs in tissue extracts. We also studied mRNA localization by in situ hybridization. In addition, we analyzed the behavior of hemocytes and tunic cells consequent to Cd exposure as well as the transcription pattern of the Ciona orthologous for proliferating cell nuclear antigen (PCNA), usually considered a proliferation marker, and observed that cell proliferation occurs after 96h of Cd treatment. This matches the hypothesis of Cd-induced cell proliferation, as already suggested by previous data on the expression of a metallothionein gene in the same animal.

CiMT-1, an unusual chordate metallothionein gene in Ciona intestinalis genome: structure and expression studies

The present article reports on the characterization of the urochordate metallothionein (MT) gene, CiMT-1, from the solitary ascidian Ciona intestinalis. The predicted protein is shorter than other known deuterostome MTs, having only 39 amino acids. The gene has the same tripartite structure as vertebrate MTs, with some features resembling those of echinoderm MTs. The promoter region shows the canonical cis-acting elements recognized by transcription factors that respond to metal, ROS, and cytokines. Unusual sequences, described in fish and echinoderms, are also present. In situ hybridization suggests that only a population of hemocytes involved in immune responses, i.e. granular amebocytes, express CiMT-1 mRNA. These observations support the idea that urochordates perform detoxification through hemocytes, and that MTs may play important roles in inflammatory humoral responses in tunicates. The reported data offer new clues for better understanding the evolution of these multivalent proteins from non-vertebrate to vertebrate chordates and reinforce their functions in detoxification and immunity.

Relationship between metallothionein and metal contents in red-blooded and white-blooded Antarctic teleosts

Abstract Metal bioaccumulation and metallothionein were investigated in different organs of the red-blooded teleost, Trematomus bernacchii and the haemoglobinless Chionodraco hamatus. Specimens of the two Antarctic fish were sampled from Terra Nova Bay (Ross Sea), and their levels of Cd, Cu and Zn in homogenates and in soluble fractions of liver, muscle, gills, heart and plasma were determined. Dosages of metallothioneins (MTs) or MT-like proteins were assayed by the silver saturation method in soluble fractions of the same organs. In both T. bernacchii and C. hamatus the highest MT contents were found in liver. Hepatic MT and Cd, Cu and Zn concentrations correlated positively in T. bernacchii, whereas in C. hamatus hepatic MT showed a positive correlation only with Cd. Positive correlations were also found between Cd and MT in gills of the two species. A metal-binding protein containing a high percentage of cysteine from C. hamatus was purified and compared with the MT from T. bernacchii and mammals.