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181.
The metabolic differences in vitro between genetic and dietary obese rats in the uptake of ammonium and amino acids by the liver and their use for ureogenesis have been assayed using hepatocytes isolated from Lean, Obese Zucker (Genetic obese) rats and Dietary obese rats. The hepatocytes of genetic obese animals took up more ammonium and produced higher amounts of urea from ammonium and alanine than those of lean and dietary obese groups (2 and 5 times more respectively). In the lean and dietary obese groups urea synthesis accounted for almost all the nitrogen taken up as ammonium. Thus, dietary and genetic obesity show a widely different handling of nitrogen, and the genetic obese rats need to break down protein to maintain their hepatocyte function. 相似文献
182.
Cristina Snchez-Gonzlez Juan Cruz Herrero Martín Beat Salegi Ansa Cristina Núez de Arenas Brina Stan
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Marta P. Pereira Laura Contreras Jos M. Cuezva Laura Formentini 《Cell death & disease》2022,13(6)
Tubular aggregates (TA) are honeycomb-like arrays of sarcoplasmic-reticulum (SR) tubules affecting aged glycolytic fibers of male individuals and inducing severe sarcomere disorganization and muscular pain. TA develop in skeletal muscle from Tubular Aggregate Myopathy (TAM) patients as well as in other disorders including endocrine syndromes, diabetes, and ageing, being their primary cause unknown. Nowadays, there is no cure for TA. Intriguingly, both hypoxia and calcium dyshomeostasis prompt TA formation, pointing to a possible role for mitochondria in their setting. However, a functional link between mitochondrial dysfunctions and TA remains unknown. Herein, we investigate the alteration in muscle-proteome of TAM patients, the molecular mechanism of TA onset and a potential therapy in a preclinical mouse model of the disease. We show that in vivo chronic inhibition of the mitochondrial ATP synthase in muscle causes TA. Upon long-term restrained oxidative phosphorylation (OXPHOS), oxidative soleus experiments a metabolic and structural switch towards glycolytic fibers, increases mitochondrial fission, and activates mitophagy to recycle damaged mitochondria. TA result from the overresponse of the fission controller DRP1, that upregulates the Store-Operate-Calcium-Entry and increases the mitochondria-SR interaction in a futile attempt to buffer calcium overloads upon prolonged OXPHOS inhibition. Accordingly, hypoxic muscles cultured ex vivo show an increase in mitochondria/SR contact sites and autophagic/mitophagic zones, where TA clusters grow around defective mitochondria. Moreover, hypoxia triggered a stronger TA formation upon ATP synthase inhibition, and this effect was reduced by the DRP1 inhibitor mDIVI. Remarkably, the muscle proteome of TAM patients displays similar alterations in mitochondrial dynamics and in ATP synthase contents. In vivo edaravone treatment in mice with restrained OXPHOS restored a healthy phenotype by prompting mitogenesis and mitochondrial fusion. Altogether, our data provide a functional link between the ATP synthase/DRP1 axis and the setting of TA, and repurpose edaravone as a possible treatment for TA-associated disorders.Subject terms: Musculoskeletal abnormalities, Energy metabolism 相似文献
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Cathepsin B and other lysosomal cysteine proteinases are synthesized as inactive zymogens, which are converted to their mature forms by other proteases or by autocatalytic processing. Procathepsin B autoactivation was shown in vitro at pH 4.5 to be a bimolecular process with K(s) and k(cat) values of 2.1+/-0.9 microM and 0.12+/-0.02 s(-1)6.0. However, in the presence of 0.5 microg/ml of dextran sulfate, relatively rapid processing is observed even at pH 6.5 (t(1/2) approximately 90 min), suggesting that glycosaminoglycans are involved in in vivo processing of lysosomal cysteine proteases. 相似文献
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Katrin B?ttger Haralambos Hatzikirou Anja Voss-B?hme Elisabetta Ada Cavalcanti-Adam Miguel A. Herrero Andreas Deutsch 《PLoS computational biology》2015,11(9)
Tumor cells develop different strategies to cope with changing microenvironmental conditions. A prominent example is the adaptive phenotypic switching between cell migration and proliferation. While it has been shown that the migration-proliferation plasticity influences tumor spread, it remains unclear how this particular phenotypic plasticity affects overall tumor growth, in particular initiation and persistence. To address this problem, we formulate and study a mathematical model of spatio-temporal tumor dynamics which incorporates the microenvironmental influence through a local cell density dependence. Our analysis reveals that two dynamic regimes can be distinguished. If cell motility is allowed to increase with local cell density, any tumor cell population will persist in time, irrespective of its initial size. On the contrary, if cell motility is assumed to decrease with respect to local cell density, any tumor population below a certain size threshold will eventually extinguish, a fact usually termed as Allee effect in ecology. These results suggest that strategies aimed at modulating migration are worth to be explored as alternatives to those mainly focused at keeping tumor proliferation under control. 相似文献
190.
The narB gene of the cyanobacterium Synechococcus sp. strain PCC 7942 encodes an assimilatory nitrate reductase that uses photosynthetically reduced ferredoxin as the physiological
electron donor. This gene was expressed in Escherichia coli and electrophoretically pure preparations of the enzyme were obtained using affinity chromatography with either reduced-ferredoxin
or NarB antibodies. The electronic absorption spectrum of the oxidized enzyme showed a shoulder at around 320 nm and a broad
absorption band between 350 and 500 nm. These features are indicative of the presence of an iron-sulfur centre(s) and accordingly
metal analysis showed ca. 3 atoms of Fe per molecule of protein that could represent a [3Fe-4S] cluster. Further analysis
indicated the presence of 1 atom of Mo and 2 molecules of ribonucleotide-conjugated molybdopterin per molecule of protein.
This, together with the requirement of a mobA gene for production of an active enzyme, strongly suggests the presence of Mo in the form of the bis-MGD (bis-molybdopterin guanine dinucleotide) cofactor in Synechococcusnitrate reductase. A model for the coordination of the Mo atom to the enzyme is proposed. Four conserved Cys residues were
replaced by site-directed mutagenesis. The effects of these changes on the enzyme activity and electronic absorption spectra
support the participation of those residues in iron-sulfur cluster coordination.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献