The international journal of biochemistry & cell biology
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Int. J. Biochem. Cell Biol. · Jul 2010
ReviewTLR2 signalling: At the crossroads of commensalism, invasive infections and toxic shock syndrome by Staphylococcus aureus.
Although up to 60% of the population at any one time carry Staphylococcus aureus (S. aureus) without significant clinical consequences, infections by S. aureus are a major health care threat in the Western world. The underlying mechanisms that determine this two-sided interaction between S. aureus and the human immune system are unknown. ⋯ Recent evidence suggests that the cell wall of S. aureus contains peptidoglycan-embedded TLR2 ligands that not only act as pathogen-associated molecular patterns, which trigger pro-inflammatory innate immune responses, but also can act as anti-inflammatory modulators of the pathogenicity by this microbe and its toxins. Here, we discuss this theme in the context of staphylococcal toxic shock syndrome and explore its implications on the development of therapeutic strategies to prevent and treat S. aureus infections.
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Int. J. Biochem. Cell Biol. · Apr 2010
ReviewThe role of toll-like receptors in chronic inflammation.
The role of Toll-like receptors (TLRs) in innate immunity and their ability to recognise microbial products has been well characterised. TLRs are also able to recognise endogenous molecules which are released upon cell damage and necrosis and have been shown to be present in numerous autoimmune diseases. ⋯ Although at present their involvement is not comprehensively defined. However, future therapies targeting individual TLRs or their signalling transducers may provide a more specific way of treating inflammatory diseases without global suppression of the immune system.
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Int. J. Biochem. Cell Biol. · Oct 2009
ReviewCapacity of oxidative phosphorylation in human skeletal muscle: new perspectives of mitochondrial physiology.
Maximal ADP-stimulated mitochondrial respiration depends on convergent electron flow through Complexes I+II to the Q-junction of the electron transport system (ETS). In most studies of respiratory control in mitochondrial preparations, however, respiration is limited artificially by supplying substrates for electron input through either Complex I or II. High-resolution respirometry with minimal amounts of tissue biopsy (1-3mg wet weight of permeabilized muscle fibres per assay) provides a routine approach for multiple substrate-uncoupler-inhibitor titrations. ⋯ The apparent ETS excess capacity (uncoupled respiration) over ADP-stimulated OXPHOS capacity is high in skeletal muscle of active and sedentary humans, but absent in mouse skeletal muscle. Such differences of mitochondrial quality in skeletal muscle are unexpected and cannot be explained at present. A comparative database of mitochondrial physiology may provide the key for understanding the functional implications of mitochondrial diversity from mouse to man, and evaluation of altered mitochondrial respiratory control patterns in health and disease.
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Int. J. Biochem. Cell Biol. · Aug 2009
Pro-oxidant mitochondrial matrix-targeted ubiquinone MitoQ10 acts as anti-oxidant at retarded electron transport or proton pumping within Complex I.
Oxidative stress of mitochondrial origin, i.e. elevated mitochondrial superoxide production, belongs to major factors determining aging and oxidative-stress-related diseases. Antioxidants, such as the mitochondria-targeted coenzyme Q, MitoQ(10), may prevent or cure these pathological conditions. To elucidate pro- and anti-oxidant action of MitoQ(10), we studied its effects on HepG2 cell respiration, mitochondrial network morphology, and rates of superoxide release (above that neutralized by superoxide dismutase) to the mitochondrial matrix (J(m)). ⋯ Consequently, MitoQ(10) has a pro-oxidant role in intact cells, whereas it serves as an antioxidant when Complex I-derived superoxide generation is already elevated due to electron flow retardation. Moreover, unlike mitochondrial uncoupling, MitoQ(10) exerted its antioxidant role when Complex I proton pumping was retarded by a hydrophobic amiloride, 5-(N-ethyl-N-isopropyl) amiloride. Consequently, MitoQ(10) may be useful in the treatment of diseases originating from impairment of respiratory chain Complex I due to oxidatively damaged mitochondrial DNA, when its targeted delivery to pathogenic tissues is ensured.
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Int. J. Biochem. Cell Biol. · Jan 2009
ReviewPotential therapeutic effects of curcumin, the anti-inflammatory agent, against neurodegenerative, cardiovascular, pulmonary, metabolic, autoimmune and neoplastic diseases.
Although safe in most cases, ancient treatments are ignored because neither their active component nor their molecular targets are well defined. This is not the case, however, with curcumin, a yellow-pigment substance and component of turmeric (Curcuma longa), which was identified more than a century ago. For centuries it has been known that turmeric exhibits anti-inflammatory activity, but extensive research performed within the past two decades has shown that this activity of turmeric is due to curcumin (diferuloylmethane). ⋯ The process of inflammation has been shown to play a major role in most chronic illnesses, including neurodegenerative, cardiovascular, pulmonary, metabolic, autoimmune and neoplastic diseases. In the current review, we provide evidence for the potential role of curcumin in the prevention and treatment of various proinflammatory chronic diseases. These features, combined with the pharmacological safety and negligible cost, render curcumin an attractive agent to explore further.