Biochemistry of metallothionein

▪ Abstract Metallothioneins (MT) are low-molecular-weight, cysteine-rich, metal-binding proteins. MT genes are readily induced by various physiologic and toxicologic stimuli. Because the cysteines in MT are absolutely conserved across species, it was suspected that the cysteines are necessary for function and MT is essential for life. In attempts to determine the function(s) of MT, studies have been performed using four different experimental paradigms: (a) animals injected with chemicals known to induce MT; (b) cells adapted to survive and grow in high concentrations of MT-inducing toxicants; (c) cells transfected with the MT gene; and (d) MT-transgenic and MT-null mice. Most often, results from studies using the first three approaches have indicated multiple functions of MT in cell biology: MT (a) is a “storehouse” for zinc, (b) is a free-radical scavenger, and (c) protects against cadmium (Cd) toxicity. However, studies using MT-transgenic and null mice have not strongly supported the first two propose...

Metallothionein: an intracellular protein to protect against cadmium toxicity.

Conformational constraints for amyloid fibrillation: the importance of being unfolded.

Review: History of the Amyloid Fibril

Apolipoprotein E: a pathological chaperone protein in patients with cerebral and systemic amyloid.

C.d. studies have shown that mouse SAA2 (serum amyloid A2) protein has about one-half of the alpha-helix content of the SAA1 (serum amyloid A1) analogue (15 as against 32%), although secondary-structure prediction analyses based on sequence data do not suggest such a large difference between the forms. The decreased helical content may be a reflection or indication of a stronger propensity to aggregation of the SAA2 form compared with SAA1. The main elements of secondary structure in both proteins are beta-sheets/turns. Interactions with Ca2+ are accompanied by small losses in alpha-helix content, whereas binding to chondroitin-6-sulphate in the presence of millimolar Ca2+ also decreases the amount of secondary structure. However, SAA2 binding to heparan sulphate increases its beta-sheet structure, whereas with SAA1 secondary structure is not apparently altered by its interaction with heparan sulphate. Computer-generated surface profiles show slight differences in accessibility, hydrophilicity and flexibility between the proteins. Understanding these differences may help to explain why SAA2 is found in amyloid fibrils whereas SAA1 is not. In particular, a stronger tendency to aggregation might be the reason why SAA2 is deposited exclusively in these fibrils.

Circular-dichroism studies on two murine serum amyloid A proteins

Biochemical and physiological studies of Synechococcus cyanobacteria have indicated the presence of a low-Mr heavy-metal-binding protein with marked similarity to eukaryotic metallothioneins (MTs). We report here the characterization of a Synechococcus prokaryotic MT isolated by gel-permeation and reverse-phase chromatography. The large number of variants of this molecule found during chromatographic separation could not be attributed to the presence of major isoproteins as assessed by amino acid analysis and amino acid sequencing of isoforms. Two of the latter were shown to have identical primary structures that differed substantially from the well-described eukaryotic MTs. In addition to six long-chain aliphatic residues, two aromatic residues were found adjacent to one another near the centre of the molecule, making this the most hydrophobic MT to be described. Other unusual features included a pair of histidine residues located in repeating Gly-His-Thr-Gly sequences near the C-terminus and a complete lack of association of hydroxylated residues with cysteine residues, as is commonly found in eukaryotes. Similarly, aside from a single lysine residue, no basic amino acid residues were found adjacent to cysteine residues in the sequence. Most importantly, sequence alignment analyses with mammalian, invertebrate and fungal MT sequences showed no statistically significant homology aside from the presence of Cys-Xaa-Cys structures common to all MTs. On the other hand, like other MTs, the prokaryotic molecule appears to be free of alpha-helical structure but has a considerable amount of beta-structure, as predicted by both c.d. measurements and the Chou & Fasman empirical relations. Considered together, these data suggested that some similarity between the metal-thiolate clusters of the prokaryote and eukaryote MTs may exist.

Primary- and secondary-structural analysis of a unique prokaryotic metallothionein from a Synechococcus sp. cyanobacterium.

This report describes the complete translated gene sequence, predicted secondary structure and lipid bilayer association of a novel kinetoplastid membrane protein (KMP-11) from Leishmania donovani promastigotes KMP-11 was previously referred to as the lipophosphoglycan-associated protein (LPGAP) The isolation, species distribution and chemical characterization, including a partial protein sequence analysis and post-translational modifications, of this major membrane component have been described [Jardim, Funk, Caprioli and Olafson (1995) Biochem J 305, 307-313] Cd measurements of KMP-11 indicated a very high helical content estimated to be approximately 86% in trifluoroethanol This was in agreement with computer-based secondary-structure analyses which predicted KMP-11 to be almost exclusively alpha-helical, with the protein adopting a helix-loop-helix motif Arrangement of the residues located in the putative helical regions on an Edmundson helical wheel showed that this molecule could have a strongly amphipathic conformation and provided an explanation for how such a highly charged protein might be inserted into the plasma membrane Evidence in support of KMP-11 association with lipid bilayers was provided by showing that KMP-11 could mediate carboxyfluorescein release from liposomes These findings suggested that KMP-11 may function in part to increase bilayer pressure, stabilizing molecules such as lipophosphoglycan within the parasite pellicular membrane

Cloning and structure-function analysis of the leishmania donovani kinetoplastid membrane protein-11

The solution structure of troponin C from turkey skeletal muscle was studied at low pH by small-angle X-ray-scattering. We find that troponin C at pH 5.3 in the presence of Mg2+ has a triaxial radius of gyration and maximum dimension comparable with those of the crystallized protein. However, the relative disposition of domains is more similar to that found for the highly homologous rabbit protein in solution at pH 7.4.

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X-ray-scattering of turkey skeletal-muscle troponin C in solution at low pH

The role of the bacteriophage Mu-encoded A and B proteins is to direct the transposition of Mu DNA. These are the first active DNA transposition proteins to have been purified and their mechanism of action at the biochemical level is under intensive study. Structural studies on these proteins, however, have lagged behind their biochemical characterization. We report here near- and far-u.v. c.d. spectra for these proteins and their secondary structural features derived from these data. The Mu A protein appears to be composed of primarily beta-sheet (40%) with 24% alpha-helix, 9% beta-turn and 27% random coil. In contrast, the Mu B protein contains 55% alpha-helix with only 13% beta-sheet and 3+ beta-turn and 29% random coil. The near-u.v. c.d. spectrum of the A protein was not unusual; however, the profile of the B protein suggested either buried or restricted chromophores within the protein or short-range interactions between aromatic residues.

/pdf/secondary-structural-features-of-the-bacteriophage-mu-1n2uimwpd5.pdf

W D McCubbin

Papers

Circular-dichroism studies on two murine serum amyloid A proteins

Primary- and secondary-structural analysis of a unique prokaryotic metallothionein from a Synechococcus sp. cyanobacterium.

Cloning and structure-function analysis of the leishmania donovani kinetoplastid membrane protein-11

X-ray-scattering of turkey skeletal-muscle troponin C in solution at low pH

Secondary structural features of the bacteriophage Mu-encoded A and B transposition proteins