Essential dynamics of reversible peptide folding: Memory-free conformational dynamics governed by internal hydrogen bonds

A principal component analysis has been applied on equilibrium simulations of a beta -heptapeptide that shows reversible folding in a methanol solution. The analysis shows that the configurational space contains only three dense sub-states. These states of relatively low free energy correspond to the "native" left-handed helix, a partly helical intermediate, and a hairpin-like structure. The collection of unfolded conformations form a relatively diffuse cloud with little substructure, Internal hydrogen-bonding energies were found to correlate well with the degree of folding. The native helical structure folds from the N terminus; the transition from the major folding intermediate to the native helical structure involves the formation of the two most C-terminal backbone hydrogen bonds. A four-state Markov model was found to describe transition frequencies between the conformational states within error limits, indicating that memory-effects are negligible beyond the nanosecond time-scale. The dominant native state fluctuations were found to be very similar to unfolding motions, suggesting that unfolding pathways can be inferred from fluctuations in the native state. The low-dimensional essential subspace, describing 69% of the collective atomic fluctuations, was found to converge at time-scales of the order of one nanosecond at all temperatures investigated, whereas folding/unfolding takes place at significantly longer time-scales, even above the melting temperature. (C) 2001 Academic Press

Functional expression of CXCR3 in cultured mouse and human astrocytes and microglia

It has been established recently that inflammation of the CNS is accompanied by an expression of chemokines within the CNS. Several lines of evidence suggest that chemokines within the CNS initiate and orchestrate the infiltration of the inflamed brain by blood leukocytes. It is also known that endogenous cells of the CNS express functional chemokine receptors, raising the possibility that chemokines may be involved in intercellular signalling between brain cells during brain inflammation. It was shown recently that two chemokine ligands for CXCR3 are induced rapidly in damaged neurons. Little is known yet on the function of neuronal chemokine expression. In order to investigate whether neuronal chemokines contribute to endogenous signalling within the CNS we investigated possible expression of CXCR3 in glial cells. Reverse transcription-polymerase chain reaction experiments and in situ hybridization analysis showed that cultured astrocytes and microglia from both mouse and human sources express CXCR3 mRNA. Protein expression of CXCR3 in both cell types was detected by immunocytochemistry. Moreover, stimulation of cultured glial cells with chemokine ligands for CXCR3 induced intracellular calcium transients and chemotaxis, indicating the functional expression of CXCR3. These results indicate that glial cells in culture functionally express the chemokine receptor CXCR3. Since it has been shown that brain damage rapidly induces expression of neuronal chemokines that activate CXCR3, we suggest that glial CXCR3 might contribute to an intercellular signalling system in the CNS related to pathological conditions. (C) 2002 IBRO. Published by Elsevier Science Ltd. All rights reserved

Association between blood pressure levels over time and brain atrophy in the elderly

The relation between blood pressure level and degree of global brain atrophy is equivocal. We evaluated past and present blood pressure levels and change in blood pressure over 20 years in relation to the degree of cortical atrophy on magnetic resonance imaging (MRI). In 1995-1996, we measured blood pressure and performed MRI in 1077 nondemented elderly (age 60-90 years). For 513 of these, we had information on a blood pressure level 20 years before. The degree of cortical atrophy was semi-quantitatively scored (range 0-15). In late life, a high (greater than or equal to 90 mmHg) and low (<65 mmHg) diastolic blood pressure were associated with more cortical atrophy than a diastolic blood pressure level between 65-74 mmHg (adjusted difference 0.60 units (95% confidence interval (0), 0.18-1.02) and 0.77 units (0.28-1.25), respectively). Persons whose diastolic blood pressure had declined more than 10 mmHg over 20 years had more cortical atrophy than those with stable blood pressure levels (adjusted difference 0.53 units, 0.05-1.02). Both high and declining diastolic blood pressure levels are associated with more global brain atrophy on MRI. (C) 2002 Elsevier Science Inc. All rights reserved

Gentamicin-loaded bone cement with clindamycin or fusidic acid added:Biofilm formation and antibiotic release

The formation of staphylococcal biofilms on experimental bone cements, loaded with 0.5 or 1.0 g of active gentamicin and an additional equivalent amount of gentamicin, clindamycin, or fusidic acid was investigated. The biofilms were formed in a modified Robbins device over a 3-day time span and the influence of the additional antibiotics was quantified by expressing the number of colony forming units relative to the corresponding bone cement containing only gentamicin. Combinations of gentamicin with either fusidic acid or clindamycin reduced growth of clinical isolates of both gentamicin-sensitive Staphylocomis aureus and gentamicin-resistant coagulase-negative staphylococci to approximately 28%. To determine whether adding a second antibiotic has influence on the gentamicin release, cement blocks were placed in phosphate buffer and aliquots were taken at designated sampling intervals. The influence of the additional antibiotics was quantified by expressing the percentage released of the total amount of antibiotic incorporated in the different bone cements. After 3 days, all bone cements had released similar percentages of gentamicin, whereas more clindamycin and fusidic acid were released after doubling their concentration in the bone cements. In conclusion, bone cements loaded with combinations of gentamicin and clindamycin or fusidic acid are more effective in preventing biofilm formation than bone cements with gentamicin as a single drug. In addition, the presence of clindamycin or fusidic acid in gentamicin-loaded bone cement has no influence on the total gentamicin release. (c) 2005 Wiley Periodicals, Inc. J Biomed Mater Res 73A: 165-170, 2005