Mysticism in the philosophy of William Ernest Hocking

Thesis (Ph.D.)--Boston UniversityHocking's mysticism is a support to his idealism. It holds together the world which reason splits apart. Yet the operation of mysticism is within reason itself. It is in idea first, but the meaning-for-reality which is a part of every idea is given up to reason. Through reason the implicit purposes which are contained in idea are given up to the judgment of experience and are there made explicit. The value for wholeness which is contained in idea becomes differentiated through the judgment of experience into that intimate object whom the mystic calls God, a "Thou", not a mere Absolute, a mere necessity. But wholeness, as applied to God, means wholeness of function in righteousness. In this kind of wholeness the finite self can "participate" without losing any of his own value, increasing his value for individual selfhood as he participates in God

Lectins as drug targets : functional, structural, and pharmacological insights into E-selectin and FimH

Lectins are carbohydrate-binding proteins found throughout nature in plants, viruses, pro- and eukaryotes. Their carbohydrate specificity as well as their biological functions are highly diverse. Lectins in humans primarily serve as cell-surface receptors and are mainly involved in the immunogenic processes. Bacterial lectins are often involved in conferring pathogenesis by binding to carbohydrates of the host. In this thesis, structural, functional, and pharmacological insights on the mammalian lectin E-selectin and the bacterial lectin FimH are given. Part E-selectin: E-selectin is a C-type lectin involved in leukocyte recruitment during inflammation by binding to the tetrasaccharide ligand sialyl Lewisx (sLex). It is involved in numerous diseases, e.g. asthma, psoriasis, stroke, rheumatoid arthritis or cancer metastasis. Targeting E-selectin with glycomimetic antagonists is therefore in the focus of drug discovery. The following aspects of E-selectin were investigated: -Publication 1: The thermodynamic driving forces of the interaction of E-selectin with sLex and glycomimetics thereof were investigated. We demonstrated that sLex binding is an entropy-driven process, which is an uncommon feature of carbohydrate-lectin interactions. -Manuscript 1: The co-crystallization of E-selectin with sLex or a more potent glycomimetics thereof revealed a previously unseen induced fit of the binding site involving alterations in the first two domains. We showed that this induced fit occurs in solution and discuss the physiological relevance. -Manuscript 2: A flexible and a pre-organized E-selectin antagonist were characterized for their kinetic and thermodynamic properties, which revealed an unexpected loss in entropy for the pre-organized antagonist. Co-crystallization with a series of antagonists revealed the reason for this behavior. -Publication 2: The single nucleotide polymorphism which leads to the S128R mutation in E-selectin has been correlated with an increased risk of developing various diseases. We investigated the binding behavior of this mutant and demonstrated that glycomimetics are efficacious in inhibiting E-selectin-S128R mediated binding. -Manuscript 3: Mice are able to express the N-glycolyl form of sLex, unlike humans. Therefore, the specificity of murine E-selectin might be altered. We investigated the binding specificity of murine E-selectin and evaluated the potency of antagonists designed for human E-selectin. We confirmed the efficacy of E-selectin antagonists towards murine E-selectin, thus demonstrating the validity of mouse models. Part FimH: The bacterial lectin FimH is presented by uropathogenic E. coli (UPEC) on the tip of type 1 pili and mediates the adhesion to mannosylated structure in the lower urinary tract. This interaction allows UPEC to colonize the bladder, the initial step in bladder infection. Mannoside-based FimH antagonists are under investigation as treatment for bladder infections. -Manuscript 4: The goal of a drug discovery program aimed to develop a treatment for urinary tract infections is to identify high-affinity, orally available, and safe FimH antagonists. Starting from the carboxylate substituted biphenyl alpha-D-mannopyranoside, affinity as well as the relevant pharmacokinetic parameters (solubility, permeability, renal excretion) could be substantially improved by a bioisosteric approach. -Manuscript 5: To comprehend and further develop potent FimH antagonists, structural data on ligand-protein interaction is essential. In this manuscript we present the X-ray co-crystal structures of FimH with three antagonist classes for which structural data were unavailable to date and provide an explanation for the observed entropy-enthalpy compensation by NMR. -Manuscript 6: Crystallographic studies of FimH with alkyl- or aryl-substituted alpha-D-mannopyranosides have demonstrated alternative binding poses with differing involvement of the residues Tyr48 and Tyr137 at the binding site entrance. Thermodynamic and molecular modeling analysis provided insights into the importance of the tyrosine-gate. -Manuscript 7: Several mutations of FimH are found in clinical isolates, which influence the binding phenotype of FimH by altering the interaction of the two FimH domains (lectin- and pilin domain). To date, FimH antagonists have never been tested on clinically relevant FimH variants. We demonstrated that antagonist affinity correlated with the binding behavior of different FimH variants

Implications of the E-selectin S128R mutation for drug discovery

The C-type lectin E-selectin mediates the rolling of circulating leukocytes on vascular endothelial cells during the inflammatory process. In numerous studies, the S128R mutation of the E-selectin was associated with cardiovascular and autoimmune diseases. There is evidence that the S128R E-selectin mutation leads to a loss in ligand specificity, thus increasing leukocyte recruitment. Apart from the natural tetrasaccharide ligand sialyl Lewisx (sLex), it has previously been proposed that non-fucosylated carbohydrates also bind to S128R E-selectin. To evaluate the therapeutic potential of the antagonism of the E-selectin mutant, ligand specificity was reinvestigated on a molecular basis. We determined the ligand specificity of wild-type and S128R E-selectin in a target-based competitive assay, a glycan array screen and cell-based binding assays under static and flow conditions. Regarding ligand-specificity, the binding properties of S128R E-selectin were identical to those of wt E-selectin, i.e., no mutant-specific binding of 3′-sialyl-N-acetyllactosamine, heparin, fetuin and K562 cells was observed. Additionally, the binding affinities of glycomimetic E-selectin antagonists were identical for wt and S128R E-selectin. Overall, the previous reports on carbohydrate ligand promiscuity of S128R E-selectin could not be confirme

E-selectin ligand complexes adopt an extended high-affinity conformation

E-selectin is a cell-adhesion molecule of the vascular endothelium that promotes essential leukocyte rolling in the early inflammatory response by binding to glycoproteins containing the tetrasaccharide sialyl Lewis(x) (sLe(x)). Efficient leukocyte recruitment under vascular flow conditions depends on an increased lifetime of E-selectin/ligand complexes under tensile force in a so-called catch-bond binding mode. Co-crystal structures of a representative fragment of the extracellular E-selectin region with sLe(x) and a glycomimetic antagonist thereof reveal an extended E-selectin conformation, which is identified as a high-affinity binding state of E-selectin by molecular dynamics simulations. Small-angle X-ray scattering experiments demonstrate a direct link between ligand binding and E-selectin conformational transition under static conditions in solution. This permits tracing a series of concerted structural changes connecting ligand binding to conformational stretching as the structural basis of E-selectin catch-bond-mediated leukocyte recruitment. The detailed molecular view of the binding site paves the way for the design of a new generation of selectin antagonists. This is of special interest, since their therapeutic potential was recently demonstrated with the pan-selectin antagonists GMI-1070 (Rivipansel)

Mutation of Tyr137 of the universal Escherichia coli fimbrial adhesin FimH relaxes the tyrosine gate prior to mannose binding

The most prevalent diseases manifested by Escherichia coli are acute and recurrent bladder infections and chronic inflammatory bowel diseases such as Crohn's disease. E. coli clinical isolates express the FimH adhesin, which consists of a mannose-specific lectin domain connected via a pilin domain to the tip of type 1 pili. Although the isolated FimH lectin domain has affinities in the nanomolar range for all high-mannosidic glycans, differentiation between these glycans is based on their capacity to form predominantly hydrophobic interactions within the tyrosine gate at the entrance to the binding pocket. In this study, novel crystal structures of tyrosine-gate mutants of FimH, ligand-free or in complex with heptyl α - D - O -mannopyranoside or 4-biphenyl α - D - O- mannopyranoside, are combined with quantum-mechanical calculations and molecular-dynamics simulations. In the Y48A FimH crystal structure, a large increase in the dynamics of the alkyl chain of heptyl α - D - O -mannopyranoside attempts to compensate for the absence of the aromatic ring; however, the highly energetic and stringent mannose-binding pocket of wild-type FimH is largely maintained. The Y137A mutation, on the other hand, is the most detrimental to FimH affinity and specificity: (i) in the absence of ligand the FimH C-terminal residue Thr158 intrudes into the mannose-binding pocket and (ii) ethylenediaminetetraacetic acid interacts strongly with Glu50, Thr53 and Asn136, in spite of multiple dialysis and purification steps. Upon mutation, pre-ligand-binding relaxation of the backbone dihedral angles at position 137 in the tyrosine gate and their coupling to Tyr48 via the interiorly located Ile52 form the basis of the loss of affinity of the FimH adhesin in the Y137A mutant

Investigating CTL Mediated Killing with a 3D Cellular Automaton

Cytotoxic T lymphocytes (CTLs) are important immune effectors against intra-cellular pathogens. These cells search for infected cells and kill them. Recently developed experimental methods in combination with mathematical models allow for the quantification of the efficacy of CTL killing in vivo and, hence, for the estimation of parameters that characterize the effect of CTL killing on the target cell populations. It is not known how these population-level parameters relate to single-cell properties. To address this question, we developed a three-dimensional cellular automaton model of the region of the spleen where CTL killing takes place. The cellular automaton model describes the movement of different cell populations and their interactions. Cell movement patterns in our cellular automaton model agree with observations from two-photon microscopy. We find that, despite the strong spatial nature of the kinetics in our cellular automaton model, the killing of target cells by CTLs can be described by a term which is linear in the target cell frequency and saturates with respect to the CTL levels. Further, we find that the parameters describing CTL killing on the population level are most strongly impacted by the time a CTL needs to kill a target cell. This suggests that the killing of target cells, rather than their localization, is the limiting step in CTL killing dynamics given reasonable frequencies of CTL. Our analysis identifies additional experimental directions which are of particular importance to interpret estimates of killing rates and could advance our quantitative understanding of CTL killing

The Threshold Bias Model: A Mathematical Model for the Nomothetic Approach of Suicide

Comparative and predictive analyses of suicide data from different countries are difficult to perform due to varying approaches and the lack of comparative parameters.A simple model (the Threshold Bias Model) was tested for comparative and predictive analyses of suicide rates by age. The model comprises of a six parameter distribution that was applied to the USA suicide rates by age for the years 2001 and 2002. Posteriorly, linear extrapolations are performed of the parameter values previously obtained for these years in order to estimate the values corresponding to the year 2003. The calculated distributions agreed reasonably well with the aggregate data. The model was also used to determine the age above which suicide rates become statistically observable in USA, Brazil and Sri Lanka.The Threshold Bias Model has considerable potential applications in demographic studies of suicide. Moreover, since the model can be used to predict the evolution of suicide rates based on information extracted from past data, it will be of great interest to suicidologists and other researchers in the field of mental health

Cell elongation in the grass pulvinus in response to geotropic stimulation and auxin application

Horizontally-placed segments of Avena sativa L. shoots show a negative geotropic response after a period of 30 min. This response is based on cell elongation on the lower side of the leaf-sheath base (pulvinus). Triticum aestivum L., Hordeum vulgare L. and Secale cereale L. also show geotropic responses that are similar to those in Avena shoots. The pulvinus is a highly specialized organ with radial symmetry and is made up of epidermal, vascular, parenchymatous and collenchymatous tissues. Statoliths, which are confined to parenchyma cells around the vascular bundles, sediment towards the gravitational field within 10–15 min of geotropic stimulation. Collenchymatous cells occur as prominent bundle caps, and in Avena , they occupy about 30% of the volume of the pulvinus. Geotropic stimulation causes a 3- to 5-fold increase in the length of the cells on the side nearest to the center of the gravitational field. Growth can also be initiated in vertically-held pulvini by the application of indole-3-acetic acid, 1-naphthaleneacetic acid or 2.4-dichlorophenoxyacetic acid. 2.3.5.-triiodobenzoic acid interferes with growth response produced by geotropic stimulation as well as with the response caused by auxin application. Gibberellic acid and kinetin have no visible effect on the growth of the pulvinus. Polarization microscopy shows a unique, non-uniform stretching of the elongating collenchymatous cells. Nonelongated collenchymatous cells appear uniformally anisotropic. After geotropic stimulation or auxin application, they appear alternately anisotropic and almost isotropic. Such a pattern of cell elongation is also observed in collenchyma cells of geotropically-stimulated shoots of Rumex acetosa L., a dicotyledon.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/47463/1/425_2004_Article_BF00385422.pd

Cause-of-Death Contributions to Educational Inequalities in Mortality in Austria between 1981/1982 and 1991/1992: Les contributions des causes de décès aux inégalités de mortalité par niveau d’éducation en Autriche entre 1981/1982 et 1991/1992

This article uses census records and deaths records to analyze trends in educational inequalities in mortality for Austrian women and men aged 35–64 years between 1981/1982 and 1991/1992. We find an increasing gradient in mortality by education for circulatory diseases and especially ischaemic heart disease. Respiratory diseases and, in addition for women, cancers showed the opposite trend. Using decomposition analysis, we give evidence that in many cases changes in the age-structure within the 10-year interval had a bigger effect than direct improvements in mortality on the analyzed subpopulations