Characteristics of the gait in old people who fall

Summary The concept of “metabolic inflexibility” was first introduced to describe the failure of insulin resistant human subjects to appropriately adjust mitochondrial fuel selection in response to nutritional cues. This phenomenon has since gained increasing recognition as a core component of the metabolic syndrome, but the underlying mechanisms have remained elusive. Here, we identify an essential role for the mitochondrial matrix enzyme, carnitine acetyltransferase (CrAT), in regulating substrate switching and glucose tolerance. By converting acetyl-CoA to its membrane permeant acetylcarnitine ester, CrAT regulates mitochondrial and intracellular carbon trafficking. Studies in muscle-specific Crat knockout mice, primary human skeletal myocytes and human subjects undergoing L-carnitine supplementation support a model wherein CrAT combats nutrient stress, promotes metabolic flexibility and enhances insulin action by permitting mitochondrial efflux of excess acetyl moieties that otherwise inhibit key regulatory enzymes such as pyruvate dehydrogenase. These findings offer therapeutically relevant insights into the molecular basis of metabolic inflexibility.

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Structural Features of the Aβ Amyloid Fibril Elucidated by Limited Proteolysis

Kheterpal

et al. 2001

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Although the gross morphology of amyloid fibrils is fairly well understood, very little is known about how the constituent polypeptides fold within the amyloid folding motif. In the experiments reported here, we used trypsin and chymotrypsin to conduct limited proteolysis studies on synthetic amyloid fibrils composed of the Alzheimer's disease peptide Abeta(1-40). In both reactions, the extreme N-terminal proteolytic fragment is released from fibrils as rapidly as it is from the Abeta monomer, while other proteolytic fragments are generated much more slowly. Furthermore, aggregated material isolated by centrifugation of intermediate digestion time points from both proteases contains, in addition to full-length material, peptides that possess mature C-termini but truncated N-termini. These data strongly suggest that the N-terminal region of Abeta is not involved in the beta-sheet network of the amyloid fibril, while the C-terminus is essentially completely engaged in protective-presumably beta-sheet-structure. In both digests, release of the extreme N-terminal fragments of Abeta(1-40) reaches plateau values corresponding to about 80% of the total available Abeta. This suggests that there are two classes of peptides in the fibril: while the majority of Abeta molecules have an exposed N-terminus, about 20% of the peptides have an N-terminus that is protected from proteolysis within the fibril structure. The most likely cause of this heterogeneity is the lateral association of protofilaments into the fibril structure, which would be expected to generate a unique environment for those Abeta N-termini located at protofilament packing interfaces and/or in the interior core region between the packed protofilaments. This suggests that the N-terminal region of Abeta, while not directly involved in the beta-sheet network of the fibril, may contribute to fibril stability by participating in protofilament packing.

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Indu Kheterpal

Mapping Aβ Amyloid Fibril Secondary Structure Using Scanning Proline Mutagenesis

Muscle-Specific Deletion of Carnitine Acetyltransferase Compromises Glucose Tolerance and Metabolic Flexibility

Structural Features of the Aβ Amyloid Fibril Elucidated by Limited Proteolysis

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