A mouse mutant identified during a recessive N-ethyl-N-nitrosourea (ENU) mutagenesis screen exhibited ocular hemorrhaging resulting in a blood-filled orbit, and hence was named "redeye." We aimed to ...identify the causal mutation in redeye, and evaluate it as a model for diabetic retinopathy (DR).
The causative gene mutation in redeye was identified by haplotype mapping followed by exome sequencing. Glucose tolerance tests, detailed histologic and immunofluorescence analyses, and vascular permeability assays were performed to determine the affect of redeye on glucose metabolism, pericyte recruitment, and the development of the retinal vasculature and blood-retinal barrier (BRB).
A mutation was identified in the Pdgfrb gene at position +2 of intron 6. We show that this change causes partial loss of normal splicing resulting in a frameshift and premature termination, and, therefore, a substantial reduction in normal Pdgfrb transcript. The animals exhibit defective pericyte recruitment restricted to the central nervous system (CNS) causing basement membrane and vascular patterning defects, impaired vascular permeability, and aberrant BRB development, resulting in vascular leakage and retinal ganglion cell apoptosis. Despite exhibiting classic features of diabetic retinopathy, redeye glucose tolerance is normal.
The Pdgfrb(redeye/redeye) mice exhibit all of the features of nonproliferative DR, including retinal neurodegeneration. In addition, the perinatal onset of the CNS-specific vascular phenotype negates the need to age animals or manage diabetic complications in other organs. Therefore, they are a more useful model for diseases involving pericyte deficiencies, such as DR, than those currently being used.
The role of a water molecule (water A) located between the primary electron donor (P) and first electron acceptor bacteriochlorophyll (BA) in the purple bacterial reaction center was investigated by ...mutation of glycine M203 to leucine (GM203L). The x-ray crystal structure of the GM203L reaction center shows that the new leucine residue packs in such a way that water A is sterically excluded from the complex, but the structure of the protein-cofactor system around the mutation site is largely undisturbed. The results of absorbance and resonance Raman spectroscopy were consistent with either the removal of a hydrogen bond interaction between water A and the keto carbonyl group of BA or a change in the local electrostatic environment of this carbonyl group. Similarities in the spectroscopic properties and x-ray crystal structures of reaction centers with leucine and aspartic acid mutations at the M203 position suggested that the effects of a glycine to aspartic acid substitution at the M203 position can also be explained by steric exclusion of water A. In the GM203L mutant, loss of water A was accompanied by an ∼8-fold slowing of the rate of decay of the primary donor excited state, indicating that the presence of water A is important for optimization of the rate of primary electron transfer. Possible functions of this water molecule are discussed, including a switching role in which the redox potential of the BA acceptor is rapidly modulated in response to oxidation of the primary electron donor.
Threats to Americans' health-including chronic disease, emerging infectious disease, and bioterrorism-are present and growing, and the public health system is responsible for addressing these ...challenges. Public health systems in the United States are built on an infrastructure of workforce, information systems, and organizational capacity; in each of these areas, however, serious deficits have been well documented. Here we draw on two 2003 Institute of Medicine reports and present evidence for current threats and the weakness of our public health infrastructure. We describe major initiatives to systematically assess, invest in, rebuild, and evaluate workforce competency, information systems, and organizational capacity through public policy making, practical initiatives, and practice-oriented research. These initiatives are based on applied science and a shared federal-state approach to public accountability. We conclude that a newly strengthened public health infrastructure must be sustained in the future through a balancing of the values inherent in the federal system.
One of the major challenges currently facing health care providers is an ageing population that is spending more time in ill-health. Many ageing individuals have multiple and complex needs which ...affect the ability to treat them effectively, which also has a significant impact on their own independence and quality of life. There are many aspects of testing interventions to improve health in old age in pre-clinical models; from breeding strategies to measurements of outcomes. Here we provide a brief overview of the major considerations to take into account in such studies and the limitations or challenges we face in these studies.
The kinetics of recombination of the P(+)H(A)(-) radical pair were compared in wild-type reaction centers from Rhodobacter sphaeroides and in seven mutants in which the free energy gap, ΔG, between ...the charge separated states P(+)B(A)(-) and P(+)H(A)(-) was either increased or decreased. Five of the mutant RCs had been described previously, and X-ray crystal structures of two newly constructed complexes were determined by X-ray crystallography. The charge recombination reaction was accelerated in all mutants with a smaller ΔG than in the wild-type, and was slowed in a mutant having a larger ΔG. The free energy difference between the state P(+)H(A)(-) and the PH(A) ground state was unaffected by most of these mutations. These observations were consistent with a model in which the P(+)H(A)(-) → PH(A) charge recombination is thermally activated and occurs via the intermediate state P(+)B(A)(-), with a mean rate related to the size of the ΔG between the states P(+)B(A)(-) and P(+)H(A)(-) and not the ΔG between P(+)H(A)(-) and the ground state. A more detailed analysis of charge recombination in the mutants showed that the kinetics of the reaction were multiexponential, and characterized by ~0.5, ~1-3, and 7-17 ns lifetimes, similar to those measured for wild-type reaction centers. The exact lifetimes and relative amplitudes of the three components were strongly modulated by the mutations. Two models were considered in order to explain the observed multiexponentiality and modulation, involving heterogeneity or relaxation of P(+)H(A)(-) states, with the latter model giving a better fit to the experimental results.
Inherited deficiency of early components of the classical complement pathway is strongly associated with the targeting of intracellular self Ags in systemic lupus erythematosus, but the reasons for ...this association are debated. In this study, we show that C1q deficiency increases the positive selection of B1b B cells and IgM autoantibodies by an intracellular self Ag, which is exposed on dying cells, and decreases the negative selection of autoreactive conventional B cells by the same Ag. These effects are specific to intracellular Ag because C1q deficiency does not affect negative selection by extracellular self Ag or increase the positive selection of naive B cells. The B1-derived IgM autoantibody binds to the intracellular Ag when it is expressed on dying cells, leading to fixation of C1q and clearance of cells by phagocytosis. These findings suggest that the positive selection of autoreactive B1 cells by self Ags may contribute to the IgM and C1q-dependent clearance of dying cells in a feedback loop that limits exposure of conventional B cells to immunogenic self Ags. We show that exposure of intracellular Ag leads to the activation of conventional B cells, when there is a source of T cell help in vivo.
X-ray crystallography has been used to investigate the extent of structural changes in mutants of the purple bacterial reaction center that assemble without a particular ubiquinone or ...bacteriopheophytin cofactor. In the case of the bacteriopheophytin-exclusion mutant, in which Ala M149 was replaced by Trp (AM149W), the quality of protein crystals was improved over that seen in previous work by minimizing illumination, time, and temperature during the purification protocol and carrying out crystal growth at 4 °C after overnight incubation at 18 °C. The X-ray crystal structure of the AM149W mutant, determined to a resolution of 2.2 Å, showed very little change in protein structure despite the absence of the bacteriopheophytin cofactor. Changes in the electron density map in the region of the cofactor binding site could be accounted for by changes in the conformation of the phytol side chains of adjacent cofactors and the presence of a buried water molecule. Residues lining the vacated binding pocket did not show any significant changes in conformation or increases in disorder as assessed through crystallographic atomic displacement parameters (B-factors). The X-ray crystal structure of a reaction center lacking the primary acceptor ubiquinone through mutation of Ala M248 to Trp (AM248W) was also determined, to a resolution of 2.8 Å. Again, despite the absence of an internal cofactor only very minor changes in protein structure were observed. This is in contrast to a previous report on a reaction center lacking this ubiquinone through mutation of Ala M260 to Trp (AM260W) where more extensive changes in structure were apparent. All three mutant reaction centers showed a decrease in thermal stability when housed in the native membrane, but this decrease was smaller for the AM260W mutant than the AM248W complex, possibly due to beneficial effects of the observed changes in protein structure. The lack of major changes in protein structure despite the absence of large internal cofactors is discussed in terms of protein rigidity, the protective influence of the adaptable membrane environment, and the role of small molecules and ions as packing material in the internal cavities created by this type of mutation.