A new assay falsely increases lactate dehydrogenase in plasma but not in serum.

Introduction: Serum is the International Federation of Clinical Chemistry (IFCC)-recommended matrix for the measurement of lactate dehydrogenase (LD); however, many laboratories opt for lithium heparin plasma to achieve quicker turnaround times and minimize tube usage. When introducing the new Sigma-Strong IFCC-recommended LDH2 assay from Abbott Laboratories on lithium-heparin collected samples, we observed a rise in the patient median LD activity as well as several samples exhibiting falsely elevated values.

Materials And Methods: 120 + serum and plasma samples from consenting patients were collected and evaluated for complete blood count and lactate dehydrogenase using two different assays.

NIMA-related kinase 9-mediated phosphorylation of the microtubule-associated LC3B protein at Thr-50 suppresses selective autophagy of p62/sequestosome 1.

Human ATG8 family proteins (ATG8s) are active in all steps of the macroautophagy pathway, and their lipidation is essential for autophagosome formation. Lipidated ATG8s anchored to the outer surface of the phagophore serve as scaffolds for binding of other core autophagy proteins and various effector proteins involved in trafficking or fusion events, whereas those at the inner surface are needed for assembly of selective autophagy substrates. Their scaffolding role depends on specific interactions between the LC3-interacting region (LIR) docking site (LDS) in ATG8s and LIR motifs in various interaction partners.

Use of Peptide Arrays for Identification and Characterization of LIR Motifs.

The mammalian ATG8 proteins (LC3A-C/GABARAP, GABARAPL1, and GABARAPL2) are small ubiquitin-like proteins critically involved in macroautophagy. Their processed C-termini are posttranslationally conjugated to a phosphatidylethanolamine moiety, enabling their insertion into the lipid bilayers of both the inner and outer membranes of the forming autophagosomes. The ATG8s bind a diverse selection of proteins including cargo receptors for selective autophagy, members of the core autophagy machinery, and other proteins involved in formation, transport, and maturation (fusion to lysosomes) of autophagosomes.

Conserved Atg8 recognition sites mediate Atg4 association with autophagosomal membranes and Atg8 deconjugation.

Deconjugation of the Atg8/LC3 protein family members from phosphatidylethanolamine (PE) by Atg4 proteases is essential for autophagy progression, but how this event is regulated remains to be understood. Here, we show that yeast Atg4 is recruited onto autophagosomal membranes by direct binding to Atg8 via two evolutionarily conserved Atg8 recognition sites, a classical LC3-interacting region (LIR) at the C-terminus of the protein and a novel motif at the N-terminus. Although both sites are important for Atg4-Atg8 interaction , only the new N-terminal motif, close to the catalytic center, plays a key role in Atg4 recruitment to autophagosomal membranes and specific Atg8 deconjugation.

Specificities and pH profiles of adenine and hypoxanthine-guanine-xanthine phosphoribosyltransferases (nucleotide synthases) of the thermoacidophile archaeon Sulfolobus solfataricus.

Two open reading frames in the genome of Sulfolobus solfataricus (SSO2342 [corrected] and SSO2424) were cloned and expressed in E. coli. The protein products were purified and their enzymatic activity characterized.