Fernando Lledı́as scite author profile

It is generally assumed that a specific ubiquitin ligase (E3)linksIn eukaryotic cells, ubiquitination serves to target regulatory and misfolded proteins for rapid degradation by proteasomes (1-3), to trigger endocytosis of membrane proteins (4), and also to allow specific protein-protein associations important in signal transduction, DNA repair, and gene transcription (5-8). Protein ubiquitination involves formation of isopeptide linkages between the C-terminal carboxyl group of a ubiquitin (Ub) 4 and an ⑀-amino group on a lysine on the protein substrate or a preceding Ub to form a polyUb chain. To synthesize such linkages, the C-terminal carboxyl group of a Ub is first activated by formation of a thioester bond with a cysteine on the Ubactivating enzyme (E1), and the activated Ub is then transferred as a thioester to one of the 20 -40 Ub-conjugating enzymes (E2) of the cell. The formation of a Ub chain on the substrate is then catalyzed by a Ub ligase (E3), which binds the substrate and an E2. Several families of E3s exist that differ in structure and mechanism. If ubiquitination is catalyzed by a member of the Ring finger or the U-box E3 family, the activated Ub is transferred from the E2 directly to a lysine on the protein substrate or to a preceding Ub. The abundant Ring finger and the related U-box families are small monomeric proteins that bind the substrate at one end and then in that vicinity release the reactive Ub from the E2-Ub thioester (9, 10). If ubiquitination is catalyzed by an E3 of the HECT domain family, the activated Ub is transferred from the E2 first to a cysteine on the E3 to form another thioester bond and then to the substrate or to a preceding Ub * This work was supported by grants from the NIGMS, the High Q Foundation, the Fund for Innovation from Elan Corp. (to A. L. G.), the National Institutes of Health (to S. P. G.), and National Institutes of Health R01 Grant GM65267 (to D. S.). The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. Section 1734 solely to indicate this fact. 4 The abbreviations used are: Ub, ubiquitin; UPKn, ubiquitin peptide modified at lysine n by ubiquitination; Forked chain, Ub chain in which two Ub chains are linked to the adjacent lysines on the preceding Ub; E1, Ubactivating enzyme; E2, Ub-conjugating enzyme; E3, ubiquitin-protein isopeptide ligase; LC-MSMS liquid chromatography-tandem mass spectrometry; SIM, selective ion monitoring.

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Oxidation of Catalase by Singlet Oxygen

Lledı́as

Rangel

Hansberg

1998

Journal of Biological Chemistry

142

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Different bands of catalase activity in zymograms (Cat-1a-Cat-1e) appear during Neurospora crassa development and under stress conditions. Here we demonstrate that singlet oxygen modifies Cat-1a, giving rise to a sequential shift in electrophoretic mobility, similar to the one observed in vivo. Purified Cat-1a was modified with singlet oxygen generated from a photosensitization reaction; even when the reaction was separated from the enzyme by an air barrier, a condition in which only singlet oxygen can reach the enzyme by diffusion. Modification of Cat-1a was hindered when reducing agents or singlet oxygen scavengers were present in the photosensitization reaction. The sequential modification of the four monomers gave rise to five active catalase conformers with more acidic isoelectric points. The pI of purified Cat-1a-Cat-1e decreased progressively, and a similar shift in pI was observed as Cat-1a was modified by singlet oxygen. No further change was detected once Cat-1e was reached. Catalase modification was traced to a three-step reaction of the heme. The heme of Cat-1a gave rise to three additional heme peaks in a high performance liquid chromatography when modified to Cat1c. Full oxidation to Cat-1e shifted all peaks into a single one. Absorbance spectra were consistent with an increase in asymmetry as heme was modified. Bacterial, fungal, plant, and animal catalases were all susceptible to modification by singlet oxygen, indicating that this is a general feature of the enzyme that could explain in part the variety of catalases seen in several organisms and the modifications observed in some catalases. Modification of catalases during development and under stress could indicate in vivo generation of singlet oxygen.

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Regulation and oxidation of two large monofunctional catalases

Michán

Lledı́as

Baldwin

et al. 2002

Free Radical Biology and Medicine

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Asexual Development Is Increased in Neurospora crassa cat - 3 -Null Mutant Strains

2003

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We use asexual development of Neurospora crassa as a model system with which to determine the causes of cell differentiation. Air exposure of a mycelial mat induces hyphal adhesion, and adherent hyphae grow aerial hyphae that, in turn, form conidia. Previous work indicated the development of a hyperoxidant state at the start of these morphogenetic transitions and a large increase in catalase activity during conidiation. Catalase 3 (CAT-3) increases at the end of exponential growth and is induced by different stress conditions. Here we analyzed the effects of cat-3-null strains on growth and asexual development. The lack of CAT-3 was not compensated by other catalases, even under oxidative stress conditions, and cat-3 RIP colonies were sensitive to H 2 O 2 , indicating that wild-type (Wt) resistance to external H 2 O 2 was due to CAT-3. cat-3 RIP colonies grown in the dark produced high levels of carotenes as a consequence of oxidative stress. Light exacerbated oxidative stress and further increased carotene synthesis. In the cat-3 RIP mutant strain, increased aeration in liquid cultures led to increased hyphal adhesion and protein oxidation. Compared to the Wt, the cat-3 RIP mutant strain produced six times more aerial hyphae and conidia in air-exposed mycelial mats, as a result of longer and more densely packed aerial hyphae. Protein oxidation in colonies was threefold higher and showed more aerial hyphae and conidia in mutant strains than did the Wt. Results indicate that oxidative stress due to lack of CAT-3 induces carotene synthesis, hyphal adhesion, and more aerial hyphae and conidia.

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Anti-inflammatory activity of cacalol and cacalone sesquiterpenes isolated from Psacalium decompositum

Jiménez-Estrada

Reyes-Chilpa

Apan

et al. 2006

Journal of Ethnopharmacology

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