Exposition of the Sermon on the Mount : drawn from the writings of St. Augustine ; with observations and an introductory essay on his merits as an interpreter of Scripture /

Includes bibliographical references.

The Confessions of St. Augustine /

Mode of access: Internet.

The kinases NDR1/2 act downstream of the Hippo homolog MST1 to mediate both egress of thymocytes from the thymus and lymphocyte motility

The serine and threonine kinase MST1 is the mammalian homolog of Hippo. MST1 is a critical mediator of the migration, adhesion, and survival of T cells; however, these functions of MST1 are independent of signaling by its typical effectors, the kinase LATS and the transcriptional coactivator YAP. The kinase NDR1, a member of the same family of kinases as LATS, functions as a tumor suppressor by preventing T cell lymphomagenesis, which suggests that it may play a role in T cell homeostasis. We generated and characterized mice with a T cell-specific double knockout of Ndr1 and Ndr2 (Ndr DKO). Compared with control mice, Ndr DKO mice exhibited a substantial reduction in the number of naïve T cells in their secondary lymphoid organs. Mature single-positive thymocytes accumulated in the thymus in Ndr DKO mice. We also found that NDRs acted downstream of MST1 to mediate the egress of mature thymocytes from the thymus, as well as the interstitial migration of naïve T cells within popliteal lymph nodes. Together, our findings indicate that the kinases NDR1 and NDR2 function as downstream effectors of MST1 to mediate thymocyte egress and T cell migration.

Spiritual heroes : a study of some of the world's prophets /

Jeremiah, the prophet of Israel.--The Buddha, the prince of mysticism.--Socrates, the champion of intellectual piety.--Jesus, the preacher of the kingdom of God.--St. Paul, the apostle of a universal religion.--Marcus Aurelius, the philosopher of a dying world.--Augustine, the schoolmaster of the middle ages.--Mohammed, the revivalist of Semitism.--Martin Luther, and the dawn of the modern age.

Roman autobiography, particularly Augustine's Confessions,

"This lecture was delivered at Yale university and repeated at Princeton in February, 1901."

A Select library of the Nicene and post-Nicene fathers of the Christian church.

Vols. 1-4, published in Buffalo.

A select library of the Nicene and post-Nicene fathers of the Christian church.

Mode of access: Internet.

The Psalter and martyrology of Ricemarch.

"Principl authorities": v. 1, p. [vii]-viii.

Sermons on selected lessons of the New Testament /

Translated by R.G. Macmullen.

Characterization of CDK5RAP2 as a novel regulator in the Hippo signaling pathway

CEP161 is a novel component of the Dictyostelium discoideum centrosome and is the ortholog of mammalian CDK5RAP2. Mutations in CDK5RAP2 are associated with autosomal recessive primary microcephaly (MCPH), a neurodevelopmental disorder characterized by reduced head circumference, a reduction in the size of the cerebral cortex and a mild to moderate mental retardation. Here we show that the amino acids 1-763 of the 1381 amino acids of CEP161 protein are sufficient for centrosomal targeting and centrosome association. AX2 cells over-expressing truncated and full length CEP161 proteins have defects in growth and development. Furthermore, we identified the kinase SvkA (severinkinase A) as its interaction partner which is the D. discoideum Hippo related kinase designated here as Hrk-svk. Hrk-svk is the direct homolog of human MST1. Both proteins co-localize at the centrosome. We further demonstrate that this interaction is also conserved in mammals. We were able to show that CDK5RAP2 interacts with MST1 and TAZ and it also down-regulates the transcript levels of TAZ in HEK293T cells. Taken together, our data on Dictyostelium CEP161 and human CDK5RAP2 supports the hypothesis that CDK5RAP2 as a novel regulator of Hippo signaling pathway. We propose that CDK5RAP2 mutations may lead to a decrease in the number of neurons and the subsequent reduction of brain size by regulating the hippo signaling pathway.

CELL POLARITY REGULATES ORGAN GROWTH THROUGH THE HIPPO PATHWAY

Defects in apical-basal cell polarity and abnormal expression of cell polarity determinants are linked to human cancer. Loss of polarity is highly correlated with malignancy. In Drosophila, perturbation of apical-basal polarity, including overexpressing the apical determinant Crumbs, can lead to uncontrolled tissue growth. Cells mutant for the basolateral determinant scribble overproliferate and can form neoplastic tumors. Interestingly, scribble mutant clones that arise in wild-type tissues are eliminated and therefore do not manifest their tumorigenic potential. However, the mechanisms by which cell polarity coordinates with growth control pathways in developing organs to achieve appropriate organ size remain obscure. To investigate the function of apical determinants in growth regulation, I investigated the mechanism by which the apical determinant Crumbs affects growth in Drosophila imaginal discs. I found that crumbs gain and loss of function cause overgrowth and induction of Hippo target genes. In addition, Crumbs is required for the proper localization of Expanded, an upstream component of the Hippo pathway. Furthermore, we uncoupled the cell polarity and growth control function of Crb through structure-functional analysis. Taken together, our data identify a role of Crb in growth regulation specifically through modulation of the Hippo pathway. To further explore the role of polarity in growth control, I investigated how cells mutant for basolateral determinants are eliminated by using patches of cells mutant for scribble (scribble mutant clones) as a model system. We found that competitive cell-cell interactions eliminate tumorigenic scribble cells by modulation of the Hippo pathway. The regulation of Hippo signaling is required and sufficient to restrain the tumorous growth of scribble mutant cells. Artificially increasing the relative fitness of scribble mutant cells unleashes their tumorigenic potential. Therefore, we have identified a novel tumor-suppression mechanism that depends on signaling between normal and tumorigenic cells. These data identify evasion of cell competition as a critical step toward malignancy and illustrate a role for wild-type tissue in eliminating abnormal cells and preventing the formation of tumors.

ADHERENS JUNCTIONS AND THE ACTOMYOSIN NETWORK REGULATE ORGAN GROWTH BY MODULATING HIPPO PATHWAY ACTIVITY IN DROSOPHILA

Adherens junctions (AJs) and basolateral modules are important for the establishment and maintenance of apico-basal polarity. Loss of AJs and basolateral module members lead to tumor formation, as well as poor prognosis for metastasis. Recently, in mammalian studies it has been shown that loss of either AJ or basolateral module members deregulate Yorkie activity, the downstream transcriptional effector of the Hippo pathway. Importantly, it is unclear if AJ and basolateral components act through the same or parallel mechanisms to regulate Yorkie activity. Here, we dissect how loss of AJ and basolateral components affects Hippo signaling in Drosophila. Surprisingly, while scrib knock-down tissue displays increased reporter activity autonomously, α-cat knock-down tissue shows a cell autonomous decrease and a cell non-autonomous increase of Hippo reporter activity. We provided several lines of evidence to show the differential regulation in polarity protein localizations and oncogenic cooperative overgrowth by AJs and basolateral complexes. Finally, we show that Hippo pathway activity is induced in α-cat and scrib double knocked-down tissue. Taken together, our results provide evidence to show that basolateral modules and AJs act in parallel to modulate Hippo pathway activity. Non-muscle myosin II is an actomyosin component that interacts with the actin. Non-muscle myosin II also interacts with lgl, though the function of this interaction is not clear. Our lab demonstrated that modulating F-actin regulates Hippo pathway activity, and lgl also has been described as a Hippo pathway regulator. Therefore we suspect that myosin II is also involved in Hippo pathway regulation. We first characterized non-muscle Myosin II as a novel tumor suppressor gene by affecting Hippo pathway activity. Upstream regulators of Myosin II, members in the Rho signaling pathway, also displayed similar phenotypes as the Myosin II knock-down tissues. Apoptosis is also induced in myosin II knock-down tissues, however, blocking cell death does not affect myosin II knock-down induced Hippo activation. Our data suggested hyperactivating myosin II induced F-actin accumulation so therefore induces Hippo target activation. Unexpectedly, we also observed that reducing F-actin activity induced Hippo target activation in vivo. These controversial data indicated that actomyosin may regulate the Hippo pathway through multiple mechanisms.

S. Aurelii Augustini Confessiones.

Mode of access: Internet.

De civitate Dei : selections with notes and glossary /

A textbook for colleges, universities and seminaries.

Omelie mistagogiche e catechetice /

Text of the homilies in Latin; commentary in Italian. Appendix contains Italian translation of the homilies.