Transplanted beta cell response to increased metabolic demand. Changes in beta cell replication and mass

We determined the capacity of transplanted beta cells to modify their replication and mass when stimulated by changes in metabolic demand. Five groups of Lewis rats were studied: group 1 (Tx-Px) had a 95% pancreatectomy 14 d after transplantation of 500 islets; group 2 (Px-Tx) had a 95% pancreatectomy 14 d before transplantation of 500 islets; group 3 (Tx) was transplanted with 500 islets; group 4 (Px) had a 95% pancreatectomy; and group 5 (normal) was neither transplanted nor pancreatectomized. Blood glucose was normal in Tx-Px and Tx groups at all times. Px-Tx and Px groups developed severe hyperglycemia after pancreatectomy that was corrected in Px-Tx group in 83% of rats 28 d after transplantation. Replication of transplanted beta cells increased in Tx-Px (1.15 +/- 0.12%) and Px-Tx (0.85 +/- 0.12%) groups, but not in Tx group (0.64 +/- 0.07%) compared with normal pancreatic beta cells (0.38 +/- 0.05%) (P < 0.001). Mean beta cell size increased in Tx-Px (311 +/- 14 microns2) and Px-Tx (328 +/- 13 microns2) groups compared with Tx (252 +/- 12 microns2) and normal (239 +/- 9 microns2) groups (P < 0.001). Transplanted beta cell mass increased in Tx-Px (1.87 +/- 0.51 mg) and Px-Tx (1.55 +/- 0.21 mg) groups compared with Tx group (0.78 +/- 0.17 mg) (P < 0.05). In summary, changes in transplanted beta cells prevented the development of hyperglycemia in Tx-Px rats. Transplanted beta cells responded to increased metabolic demand increasing their beta cell mass.

New insights in the pathogenesis of high-altitude pulmonary edema.

High-altitude pulmonary edema is a life-threatening condition occurring in predisposed but otherwise healthy individuals. It therefore permits the study of underlying mechanisms of pulmonary edema in the absence of confounding factors such as coexisting cardiovascular or pulmonary disease, and/or drug therapy. There is evidence that some degree of asymptomatic alveolar fluid accumulation may represent a normal phenomenon in healthy humans shortly after arrival at high altitude. Two fundamental mechanisms then determine whether this fluid accumulation is cleared or whether it progresses to HAPE: the quantity of liquid escaping from the pulmonary vasculature and the rate of its clearance by the alveolar respiratory epithelium. The former is directly related to the degree of hypoxia-induced pulmonary hypertension, whereas the latter is determined by the alveolar epithelial sodium transport. Here, we will review evidence that, in HAPE-prone subjects, impaired pulmonary endothelial and epithelial NO synthesis and/or bioavailability may represent a central underlying defect predisposing to exaggerated hypoxic pulmonary vasoconstriction and, in turn, capillary stress failure and alveolar fluid flooding. We will then demonstrate that exaggerated pulmonary hypertension, although possibly a conditio sine qua non, may not always be sufficient to induce HAPE and how defective alveolar fluid clearance may represent a second important pathogenic mechanism.

Identification of Novel Craniofacial Regulatory Domains Located far Upstream of SOX9 and Disrupted in Pierre Robin Sequence.

Mutations in the coding sequence of SOX9 cause campomelic dysplasia (CD), a disorder of skeletal development associated with 46,XY disorders of sex development (DSDs). Translocations, deletions, and duplications within a ∼2 Mb region upstream of SOX9 can recapitulate the CD-DSD phenotype fully or partially, suggesting the existence of an unusually large cis-regulatory control region. Pierre Robin sequence (PRS) is a craniofacial disorder that is frequently an endophenotype of CD and a locus for isolated PRS at ∼1.2-1.5 Mb upstream of SOX9 has been previously reported. The craniofacial regulatory potential within this locus, and within the greater genomic domain surrounding SOX9, remains poorly defined. We report two novel deletions upstream of SOX9 in families with PRS, allowing refinement of the regions harboring candidate craniofacial regulatory elements. In parallel, ChIP-Seq for p300 binding sites in mouse craniofacial tissue led to the identification of several novel craniofacial enhancers at the SOX9 locus, which were validated in transgenic reporter mice and zebrafish. Notably, some of the functionally validated elements fall within the PRS deletions. These studies suggest that multiple noncoding elements contribute to the craniofacial regulation of SOX9 expression, and that their disruption results in PRS.

Reheating in inflationary cosmologies: Geometric coupling of the "inflaton" to quantum fields

We propose a simple geometrical prescription for coupling a test quantum scalar field to an "inflaton" (classical scalar field) in the presence of gravity. When the inflaton stems from the compactification of a Kaluza-Klein theory, the prescription leaves no arbitrariness and amounts to a dimensional reduction of the Klein-Gordon equation. We discuss the possible relevance of this coupling to "reheating" in inflationary cosmologies.

Minimal analytical characterisation of engineered nanomaterials need for hazard assessment in biological matrices

The safe and responsible development of engineered nanomaterials (ENM), nanotechnology-based materials and products, together with the definition of regulatory measures and implementation of "nano"-legislation in Europe require a widely supported scientific basis and sufficient high quality data upon which to base decisions. At the very core of such a scientific basis is a general agreement on key issues related to risk assessment of ENMs which encompass the key parameters to characterise ENMs, appropriate methods of analysis and best approach to express the effect of ENMs in widely accepted dose response toxicity tests. The following major conclusions were drawn: Due to high batch variability of ENMs characteristics of commercially available and to a lesser degree laboratory made ENMs it is not possible to make general statements regarding the toxicity resulting from exposure to ENMs. 1) Concomitant with using the OECD priority list of ENMs, other criteria for selection of ENMs like relevance for mechanistic (scientific) studies or risk assessment-based studies, widespread availability (and thus high expected volumes of use) or consumer concern (route of consumer exposure depending on application) could be helpful. The OECD priority list is focussing on validity of OECD tests. Therefore source material will be first in scope for testing. However for risk assessment it is much more relevant to have toxicity data from material as present in products/matrices to which men and environment are be exposed. 2) For most, if not all characteristics of ENMs, standardized methods analytical methods, though not necessarily validated, are available. Generally these methods are only able to determine one single characteristic and some of them can be rather expensive. Practically, it is currently not feasible to fully characterise ENMs. Many techniques that are available to measure the same nanomaterial characteristic produce contrasting results (e.g. reported sizes of ENMs). It was recommended that at least two complementary techniques should be employed to determine a metric of ENMs. The first great challenge is to prioritise metrics which are relevant in the assessment of biological dose response relations and to develop analytical methods for characterising ENMs in biological matrices. It was generally agreed that one metric is not sufficient to describe fully ENMs. 3) Characterisation of ENMs in biological matrices starts with sample preparation. It was concluded that there currently is no standard approach/protocol for sample preparation to control agglomeration/aggregation and (re)dispersion. It was recommended harmonization should be initiated and that exchange of protocols should take place. The precise methods used to disperse ENMs should be specifically, yet succinctly described within the experimental section of a publication. 4) ENMs need to be characterised in the matrix as it is presented to the test system (in vitro/ in vivo). 5) Alternative approaches (e.g. biological or in silico systems) for the characterisation of ENMS are simply not possible with the current knowledge. Contributors: Iseult Lynch, Hans Marvin, Kenneth Dawson, Markus Berges, Diane Braguer, Hugh J. Byrne, Alan Casey, Gordon Chambers, Martin Clift, Giuliano Elia1, Teresa F. Fernandes, Lise Fjellsbø, Peter Hatto, Lucienne Juillerat, Christoph Klein, Wolfgang Kreyling, Carmen Nickel1, and Vicki Stone.

Horae secundum usum romanum.

F. A-B. Bifolium contenant la fin de l’office du Saint Esprit ; cf. le même texte aux ff. 156-156v. XVe siècle. Copie inachevée dont les initialesont été laissées en blanc. Le f. B réglé est blanc. La justification est la même que celle du corps du manuscrit.F. 1-12v. Calendrier écrit à l’encre rouge et bleue et à l’or: nombreux saints méridionaux, en particulier de la vallée du Rhône et du Languedoc : « Fulcrani ep. [Lodevensis] » (13 févr.) ; « translatio s. Pauli » (20 février) ; « translatio s.Augustini » (28 février) ; « Pauli archi. Narbo[nensis] » (22 mars) ; « translatio b. Ferreoli [ ?] (1er avril) ; « Baudilii mart. [Nemausiensis] (20 mai) ; « Quiterie (21 mai) ; « Eutropii [ep. Arausicani] (27 mai) ; « translatio s. Saturnini » (22 juin) ; « Petri de Lucemburgo » (5 juillet) ; « Roqui mart. [Montispessulani] » (16 août) ; « Ludovici regis fratris [ep. Toletani]» (19 août) ; « Privati conf. [ep. Gabalitanus (Gévaudan)] » (21 août) ; « Fereoli mart. [Viennae] (18 sept.) ; « Apolinaris ep. [Valentinensis] » (10 oct.) ; « Firmini ep. [Ucetensis] » (11 oct.] ; « Florencii ep. [Arausicani] » (17 oct.] ; « Amancii ep. [Ruthenensis] » (5 nov.) ; « Restituti ep. [Tricastini] » (8 nov.) ; « Rufi ep. [Avenionensis] » (14 nov.) ; « Pauli ep. [Narbonensis] » (11 déc.) ; « Dominici conf. [de Silos] » (20 déc.). Mentions zodiacales et de comput, parmi lesquelles on note une « renovatio indicionum », le 24 septembre. F. 13-17. Extraits des quatre Evangiles : Io (13-14) ; Lc (14-15) ; Mt (15-16v) ; Mc (16v-17).F. 17v-71. [Horae beatae Mariae virginis secundum usum romanum]. [Ad matutinas], psaumes répartis selon les jours de la semaine (18-32v) ; — « In laudibus » (32v-42v) ; — « Ad primam » (43-46v) ; — « Ad tertiam » (46v-49) ; — « Ad sextam » (49v-52) ; « Ad IXa » (52-55) ; — « Ad vesperas » (55-60) ; — « Ad comple[c]torium » (60-64) ; — Antiennes, psaumes, leçons et répons pour les différents temps de l’année (64v-71) .F. 71-77v. Messe votive. « Missa beate Marie virginis ». « Salve sancta parens... » F. 78-85. Prières et hymnes. [Septem gaudia spiritualia b. Mariae virginis], incomplet des quatre premiers vers par lacune matérielle. « [Gaude flore virginali...] et sanctorum decoratum//...-... per eterna secula » (AH, XXXI, n° 198) ; « O sponsa Dei electa// Esto nobis via recta... » ; « ...Oratio. Domine Jhesu Christe qui beatissimam gloriosam virginem...-... pervenire mereamur » ; « Gaudia. Gaude virgo mater Christi// Que per aurem concepisti// ...-... perhemni gaudio. » (AH, XXIV, n° 57) ; cf. Leroquais, Livres d’heures, I, XXVI-XXVII ; « ... Oratio. Deus qui beatissimam virginem Mariam in consceptu... pervenire. Per... » ; « Gaudia beate Marie spiritualia. Gaude stirpe regis nata// Ab angelo saluta[ta]...-... et celorum mansio » (AH, XXXI, n° 182) ; « Oratio. Consolator mitissime Deus... sempiternis perfrui. Per... » ; « Alia oratio. Deus qui Gabrielem archangelum... mereamur habere. Qui... » ; « Devota oratio ad beatam virginem Mariam. Obsecro te domina... et michi famulo tuo pauperrimo N. ... » (Leroquais, Livres d’heures, II, 346-347).F. 85v blanc.F.86-91v. [Horae Trinitatis].F.91v-93v. Messe votive. « Missa de Trinitate ».F. 93v-97. « Devota oratio. Deus omnipotens propicius esto michi peccatori, custos mei omnibus diebus et horis vite mee, Deus Abraham... Omnes sancti angeli et archangeli Dei succurrite et subvenite michi peccatori... horis vite mee » ; cf. Leroquais, Livres d’heures, II, 396 ; — « O bone Jhesu illumina oculos meos ne unquam obdormiam... impietatem peccati mei » ; cf. Leroquais, Livres d’heures, I, XXX-XXXI ; — « Omnipotens, sempiterne et clementissime Deus qui Ezechie regi ... merear et optinere. Per... », à la forme masculine ; cf. Leroquais, Livres d’heures, II, 438 ; — « Oratio. Omnipotens sempiterne Deus te supplices exoramus ut celesti... consequantur. Per... » (Corpus orationum, VI, n° 4076).F. 97v blanc.F. 98-108. [Psaumes de la pénitence]. F. 108-117v. « Letania ». A noter parmi les confesseurs, la séquence inattendue de trois évêques de Toul honorés en Lorraine : « ... s. Mansuete, s. Gerarde, s. Aper ». Parmi les saintes : « ... s. Martha, s. Eulalia... s. Radegundis... ». — Oraisons diverses : « Propicius esto, parce nobis Domine... ut michi indigno famulo tuo N... exaudire digneris » ; — ... « Omnipotens sempiterne Deus miserere michi indigno famulo tuo N.... perficiat. Per... » ; — « Pie et exaudibilis domine Jhesu Christe Deus noster clementiam tuam... digneris eternam » ; cf. Leroquais, Psautiers, I, 25 ; — « Pietate tua quesumus Domine nostrorum solve vincula delictorum et intercedente pro nobis... virgine Dei genitrice Maria cum beatis apostolis tuis Petro et Paulo atque Andrea... eternam concede. Per... » (Corpus orationum, VI, n° 4227)...F. 118-145. [Officium mortuorum secundum usum romanum]F. 145-147v. Messe votive. « Missa pro omnibus fidelibus defunctis ». F. 148-151. [Horae sancti Spiritus].F. 151-153v. Messe votive. « Missa de sancto Spiritu », incomplet de la fin par lacune matérielle.F. 154-156v. [Horae omnium sanctorum], incomplet du premier feuillet.F. 156v-159v. Messe votive. « Missa de omnibus sanctis. F. 160-162v. [Horae sancti Sacramentis], incomplet du début par lacune matérielle. F. 162v-164v. Messe votive. « Missa de corpore Christi ».F. 164v-169v. Prières et hymnes. « ... salutatio sacratissimi corporis domini nostri Jhesu Christi. Ave Jhesu Christe verbum Patris filius [Virginis] agnus Dei...-... requies nostra vita perhemnis » ; cf. ms NAL 3211, 342 ; — « Alia oratio. Salve sancta caro Dei per quam salvi...-... da michi sedem justorum. Qui... » (ed. Leroquais, Livres d’heures, II, 348) ; — In elevatione corporis Christi. Anima Christi sanctifica me // Corpus Christi salva me... secula seculorum. Amen » ; (ed. Leroquais, Livres d’heures, II, 340 variantes) ; — « Alia. Ave verum corpus natum... o pia... ora pro nobis » (AH, LIV, n° 257) ; — « Alia devota oratio. Domine Jhesu Christe qui hanc sacratissimam carnem tuam... et periculis et in eternum » ; cf.ms NAL 3203, 26v ; — « Dum volueris communicare dic orationem. Omnipotens et misericors Deus ecce accedo ad sacratissimum accedo inquam infirmus ad medicum...-... tutela finalis in morte. Qui... » ; — « Alia oratio ante communionem. Domine sancte Pater, omnipotens eterne Deus, da mihi corpus et sanguinem... in infinita secula... » ; cf. Leroquais, Livres d’heures, II, 108 ; — « Post communionem. Gratias tibi ago Domine sancte pater omnipotens eterne Deus qui me peccatorem indignum famulum tuum saciare... et gaudium sempiternum... » ; cf. Leroquais, Livres d’heures, I, 51 ; — « Post communionem ad beatam Virginem. Serenissima Virgo et inclita mater nostri Jhesu Christi, sancta Maria regina celi et terre que eundem creatorem... hodie veracis [incomplet de la fin par lacune matérielle] ; cf. Leroquais, Livres d’heures, I, 156, 299.F. 170-173. [Horae sanctae Crucis], incomplet du début.F. 173-178. Messe votive. « Missa in honore sancte Crucis ». « Crucem tuam adoramus et veneramur domine Jhesu Christe, et per ipsam tuam sanctissimam recolimus passionem...-...defunctis vitam et gloriam sempiternam... » ; — « Alia oratio. Domine Jhesu Christe plasmator tocius creature, rex glorie obsecro miserere mei quia locutus sum... semper benedictus... » ; — « Alia oratio. Domine Jhesu Christe qui voluisti pro redemptione mundi nasci et circumcidi... ego miserrimus, vilissimus, nequissimus atque indignissimus peccator...-... latronem crucifixum. Qui... » ; — « Alia oratio. Precor te, piissime domine Jhesu Christe, per illam eximiam caritatem qua tu rex celestis... mihi tribuere digneris. Qui... » ; — « Alia oratio. Deus propicius esto michi peccatori. Quid est Jhesus nisi salvator ergo Jhesus per te ipsum redemptus sum... miserere michi Deus » ; — « Dic totum deinde dic oracionem. Tribulacionem nobis [sic], quesumus, Domine propicius respice... clementer averte. Per... ». F. 178-200. « ... suffragia sanctorum ». « ... de Trinitate » ; — « De sancto Michaele archangelo » ; — « De sancto Johanne Baptista » ; — « De sancto Petro et Paulo » ; — « De sancto Andrea apostolo » ; — « De sancto Johanne evangelista » ; — « De sancto Jacobo minori » ; — « Sanctorum Philippi et Jacobi » ; — « De innocentibus » ; — « De apostolis et evvangelistis » ; — « De sancto Stephano » ; — « De sancto Laurencio » ; — « De sancto Eutropio... Eutropium martyrem tuum (f. 183v)... » ; — « De sancto Georgio » ; — « De sancto Blasio » ; — « De sancto Dyonisio » ; — « De sancto Yppolito » ; — « De sancto Christophoro » ; — « De sancto Sebastiano. Omnipotens sempiterne Deus qui meritis beati Sebastiani martyris gloriosissimi quemdam pestem epydimie generalem hominibus mortiferam revocasti, presta supplicibus tuis ut qui hanc orationem super se portavit aut in domibus vel mansionibus scriptam aut alias de ea in tuo nomine memoriam habuerint sive in die aut in nocte legerint a simili a peste et morbo epydimie sub ejus confidencia ad te confugerint ipsius meritis et precibus ab ipsis peste et morbo epydimie et ab omnibus nocumentis venenosis necnon ab omnibus periculis corporis et anime atque a subitanea et improvisa morte et ab omnibus inimicis visibilibus et invisibilibus singulis diebus et noctibus horis atque momentis liberemur. Per Dominum. Pater noster. Ave Maria. Credo. Salva regina. Ave stella matutina, rosa sine spinis, cum reliquis ». — « Unius martyris communis » ; — « De martyribus communis » ; — « De sancto Martino » ; — « De sancto Nicholao » ; — « De sancto Anthonio » ; — « De sancto Lazaro » ; — « De sancto Restituto... Deus qui per merita beati Restituti confessoris atque pontificis a multorum oculis dolorem sanas, labem removes et visum clarificas... (189v-190) » ; — « Unius confessoris » ; — « De confessoribus communis » ; — « De beata Maria Magdalena prosa. Gaude pia Magdalena // Spes salutis // Vite vena // Lapsorum fiducia // Gaude dulcis advocata // ... » ; — « De beata Catherina. Gaude virgo Catherina /// Quam refecit lux divina // Ter quaternis noctibus //... » ; — « De beata Lucia » ; — « De beata Apollonia » ; — « De beata Agatha » ; — « De virginibus » ; — « De omnibus sanctis » ; — « De pace » ; — « De sancto Petro de Lucemburgo » ; le suffrage commence par la prière attribuée à s. Pierre de Luxembourg : « Deus pater qui creasti // Mundum et illuminasti // Suscipe...-... requiescant in pace. Amen » ; cf.ms NAL 3196, 152.F. 200v-204, feuillets réglés blancs.

Performance Evaluation Of Iowa Bridge Decks Constructed With Epoxy-Coated Reinforcing Bars, RB06-011, 2011

Epoxy coatings have been used on the embedded reinforcing bars of bridge decks since the mid-1970s to mitigate deterioration caused by chloride-induced corrosion. The use of chloride-based deicers became common in the early 1960s and caused corrosion of conventional uncoated bars in bridge decks within 5 to 10 years of commencement of deicer applications. In response to this rapid deterioration, the National Bureau of Standards researched coatings to protect the reinforcement (National Bureau of Standards, 1975), resulting in the development of epoxy-coated reinforcing bars, which were used in bridge decks beginning in 1973. While corrosion-related deterioration has been prevalent on bridge decks with uncoated reinforcing bars in northern climates where the use of deicing salts is common, bridge decks constructed after 1973 with epoxy-coated reinforcing have shown good corrosion resistance with only limited exceptions. On the whole, previous laboratory and field studies regarding the performance of epoxy-coated reinforcing bars are very promising; however, some laboratory and field studies have yielded differing results. In recent years, maintenance personnel for the Iowa Department of Transportation (Iowa DOT) have reportedly performed patch repairs to some bridge decks reinforced with epoxy-coated bars. At one such bridge, the southbound US 65 bridge (Bridge No. 7788.5L065) over the Union Pacific Railroad near Bondurant in Polk County, Iowa, deck repairs were performed by Iowa DOT maintenance personnel in the Spring of 2010, based on our communications regarding this topic with Mr. Gordon Port of the Iowa DOT. These repairs were observed by engineers from the Iowa DOT Office of Bridges and Structures, who reported that significant corrosion was found at a number of epoxy-coated reinforcing bars uncovered during this patch work. These repairs were reportedly performed at spalls and delaminated areas corresponding to cracks over transverse reinforcing bars, and involved careful removal of the concrete from over the bars. Figures 1 through 4 contain photographs provided by Iowa DOT personnel showing the removal process (Figure 1), the conditions encountered (Figures 2 and 3), and close-up views of the corroded reinforcing (Figure 4). As a result of these observations, the Iowa Department of Transportation has requested this study to gain further understanding of the long-term performance of bridge decks reinforced with epoxy-coated bars. The two main objectives of this study are to determine the long-term effectiveness of the epoxy coatings and to determine the potential causes for the deterioration at locations where corrosion has occurred. Wiss, Janney, Elstner Associates, Inc. (WJE) and the Iowa DOT identified eight different bridge decks across Iowa for this study that were constructed using epoxy-coated reinforcing bars. A field investigation consisting of visual inspections, a delamination survey, a concrete cover survey, electrical testing for susceptibility to corrosion, and concrete sampling was conducted within a survey area deemed to be representative of the condition of each bridge deck. Laboratory testing, including chloride ion content testing, characterization of the extracted bars, petrographic examination of the concrete, and carbonation testing, was conducted on the core samples taken from each bridge deck.

An integrated encyclopedia of DNA elements in the human genome.

The human genome encodes the blueprint of life, but the function of the vast majority of its nearly three billion bases is unknown. The Encyclopedia of DNA Elements (ENCODE) project has systematically mapped regions of transcription, transcription factor association, chromatin structure and histone modification. These data enabled us to assign biochemical functions for 80% of the genome, in particular outside of the well-studied protein-coding regions. Many discovered candidate regulatory elements are physically associated with one another and with expressed genes, providing new insights into the mechanisms of gene regulation. The newly identified elements also show a statistical correspondence to sequence variants linked to human disease, and can thereby guide interpretation of this variation. Overall, the project provides new insights into the organization and regulation of our genes and genome, and is an expansive resource of functional annotations for biomedical research.

Dicer1 depletion in male germ cells leads to infertility due to cumulative meiotic and spermiogenic defects.

Background: Spermatogenesis is a complex biological process that requires a highly specialized control of gene expression. In the past decade, small non-coding RNAs have emerged as critical regulators of gene expression both at the transcriptional and post-transcriptional level. DICER1, an RNAse III endonuclease, is essential for the biogenesis of several classes of small RNAs, including microRNAs (miRNAs) and endogenous small interfering RNAs (endo-siRNAs), but is also critical for the degradation of toxic transposable elements. In this study, we investigated to which extent DICER1 is required for germ cell development and the progress of spermatogenesis in mice.Principal Findings: We show that the selective ablation of Dicer1 at the early onset of male germ cell development leads to infertility, due to multiple cumulative defects at the meiotic and post-meiotic stages culminating with the absence of functional spermatozoa. Alterations were observed in the first spermatogenic wave and include delayed progression of spermatocytes to prophase I and increased apoptosis, resulting in a reduced number of round spermatids. The transition from round to mature spermatozoa was also severely affected, since the few spermatozoa formed in mutant animals were immobile and misshapen, exhibiting morphological defects of the head and flagellum. We also found evidence that the expression of transposable elements of the SINE family is up-regulated in Dicer1-depleted spermatocytes.Conclusions/Significance: Our findings indicate that DICER1 is dispensable for spermatogonial stem cell renewal and mitotic proliferation, but is required for germ cell differentiation through the meiotic and haploid phases of spermatogenesis.

CDK9 regulates AR promoter selectivity and cell growth through serine 81 phosphorylation.

Previously we determined that S81 is the highest stoichiometric phosphorylation on the androgen receptor (AR) in response to hormone. To explore the role of this phosphorylation on growth, we stably expressed wild-type and S81A mutant AR in LHS and LAPC4 cells. The cells with increased wild-type AR expression grow faster compared with parental cells and S81A mutant-expressing cells, indicating that loss of S81 phosphorylation limits cell growth. To explore how S81 regulates cell growth, we tested whether S81 phosphorylation regulates AR transcriptional activity. LHS cells stably expressing wild-type and S81A mutant AR showed differences in the regulation of endogenous AR target genes, suggesting that S81 phosphorylation regulates promoter selectivity. We next sought to identify the S81 kinase using ion trap mass spectrometry to analyze AR-associated proteins in immunoprecipitates from cells. We observed cyclin-dependent kinase (CDK)9 association with the AR. CDK9 phosphorylates the AR on S81 in vitro. Phosphorylation is specific to S81 because CDK9 did not phosphorylate the AR on other serine phosphorylation sites. Overexpression of CDK9 with its cognate cyclin, Cyclin T, increased S81 phosphorylation levels in cells. Small interfering RNA knockdown of CDK9 protein levels decreased hormone-induced S81 phosphorylation. Additionally, treatment of LNCaP cells with the CDK9 inhibitors, 5,6-dichloro-1-β-D-ribofuranosylbenzimidazole and Flavopiridol, reduced S81 phosphorylation further, suggesting that CDK9 regulates S81 phosphorylation. Pharmacological inhibition of CDK9 also resulted in decreased AR transcription in LNCaP cells. Collectively these results suggest that CDK9 phosphorylation of AR S81 is an important step in regulating AR transcriptional activity and prostate cancer cell growth.

Recueil des poésies des troubadours, contenant leurs vies.

Contient : 1° Chansons ; « PEIRE D'ALVERNE » ; « PEIRE ROGIERS » ; « GUIRAUTZ DE BORNEILL » ; « BERNARTZ DE VENTEDORN » ; « GAUSELMS FAIDITZ » ; « PEIRE VIDALS » ; « ARNAUTZ DE MERUOILL » ; « PERDIGONS » ; « N'AIMERICS DE PIGUILLAN » ; « PEIROLS » ; « FOLQUET DE MARSEILLA » ; « ARNAUTZ DANIELS » ; « RAIMONS DE MIRAVAL » ; « PONZ DE CAPDUOILL » ; « RAEMBAUTZ DE VAQUEIRAS » ; « GUILLEMS DE SAINT LEIDIER » ; « GAUBERTZ DE POICIBOT » ; « LO VESCOMS DE SAINT ANTONI » ; « GUIRAUDOS LO ROS » ; « PEIRE RAIMONS DE TOLOSA » ; « RICHARTZ DE BERBESIEU » ; « GUI D'UISEL » ; « En LANFRANC CIGALLA » ; « BONIFACI CALBO » ; « En BERTHOLOME ÇORGI » ; « N'UCS BRUNECS » ; « GUILLEMS ADEMARS » ; « GUILLEMS DE CAPESTAING » ; « ELIAS CAIRELS » ; « PEIRE DE MAENSAC » ; « SAIL DE SCOLA » ; « PEIRE DEL PUOI » ; « LO REIS D'ARAGON » ; « RAIMONZ DE SALAS » ; « En BLANCATZ » ; « En BLANCASSETZ » ; « GUILLEMS FIGUERA » ; « PEIRE GUILLEMS » ; « RICAS NOVAS » ; « GUILLEM DE BALAUN » ; « DEUDE DE PRADAS » ; « CADENETZ » ; « MARCABRUS » ; « JORDANS BONELS » ; « JAUFRES RUDELS DE BLAIA » ; « PEIRE DE VALERIA » ; « RICHAUTZ DE TARASCON » ; « BERTRANS DEL POJET » ; « N'AIMERICS DE SARLAT » ; « SORDELS » ; « MONTAINGNACOT » ; « NA CASTELOZA » ; « N'AIMERICS DE BELENOI » ; « N'UCS DE SAINT CIRC » ; « N'ELIAS DE BARJOLS » ; « GUILLEMS DE LA TOR » ; « CERCAMONS » ; « ALBERTEZ DE GAPENSES » ; « LO MONGES DE MONTAUDON » ; « PISTOLETA » ; « N'AIMARS LO NEGRES » ; « GUILLEMS MAGRET » ; « N'ELIAS FONSALADA » ; « N'AZALAIS DE PORCARAGES » ; « BERRENGIERS DE PALAZOL » ; « UGO DE PENA » ; « LA COMTESSA DI DIA » ; « PEIRE BREMONZ LO TORZ » ; « GAUSERAN DE SAN LEIDIER » ; « GAUBERTZ AMIELS » ; « LO COMS DE PEITIEUS » ; « GUIRAUTZ DE CALANSON » ; « GUILLEMS RAINOLS D'AT » ; « RAEMBAUTZ D'AURENGA » ; « PEIRE MILON » ; « En RALMENZ BISTORTZ » ; « N'UC DE LA BACALARIA » ; « En RAMBAUTZ DE BEL JOC » ; « ARNAUT DE TINTIGNAC » ; « GUIRAUTZ DE SALAIGNAC » ; « PEIRE DE CORBIAC » ; « LO reis PEIRE D'ARAGON » ; « Responsa de PEIRE SALVAJE » ; « LO COMS DE FOIS » ; « LO reis PEIRE D'ARAGON » ; « LO COMS DE FOIS » ; 2° Tensons ; « En SAVARICS DE MAULLEON et En GAUSELLINS FAIDIT et En UGO DE LA BACALARIA » ; « N'AIMERICS DE PIGUILLAN ed En GUILLEM DE BERGUEDAN » ; « N'AIMERICS DE PIGUILLAN et En GAUSELMS FAIDITZ » ; « N'ALBERTETZ e N'AMERICS DE PIGUILLAN » ; « Em BLANCATZ et En RAMBAUTZ » ; « RAINAUTZ DE PON e seingner JAUFRE » ; « LO DAEFINS D'ALVERNE et En PERDIGONS » ; « GAUSELM FAIDITZ et En PERDIGONS » ; « N'UGO DE LA BACALARIA et En BELTRAM DE SAN FILITZ » ; « GUILLEMS RANOLS ed En MAGRET » ; « RICAUTZ DE TARASCON e N' GUIS DE CAVAILLON » ; « GUIRAUTZ DE BORNEILL el REIS D'ARRAGON » ; « PEIRE ROGIERS » ; « RAMBAUTZ ed En PEIRE ROGIERS » ; « PEIROLS et En BERNATZ DEL VENTEDORN » ; « ALBERTZ MARQUES » ; « BERNARTZ DE VENTADORN ed En PEIROLS » ; « GUILLEMS DE LA TOR e seigner N'IBERT » ; « RAMBAUTZ DE VAQUERAS e seingner COINE » ; « RAMBAUTZ DE VAQUERAS e de la domna » ; « ALBERTEZ et En GAUSELLMS FAIDITZ » ; « En BLANCATZ ed En PEIRE VIDALS » ; « BONAFE e seingn' En BLANCATZ » ; « GUILLEMS DE SAINT GREGORI et En BLANCATZ » ; « GUILLEMS DE LA TOR ed En SORDELS » ; « RAIMONS DE MIRAVAL ed En BELTRAN » ; « GUILLEMS GASMAR et En NEBLE » ; « PEIROLS et AMORS » ; « N'UC DE SAN CIRC e seingner COMS » ; « N'UC et En RECULAIRE » ; « GARINS LO BRUS e MESURA » ; « N'ELIAS e son cosin » ; « N'ARNAUTZ e seingner Em COMS » ; « D'En RAMBAUTZ e d'Enn AZEMARS » ; « LANFRANC CIGALA e Na GUILLELMA DE ROSERS » ; « D'En GIGO e d'En JORIS » ; « D'En SORDELS e d'En BERTRANS » ; « CADENET ed En GUIONET » ; « N'ELIAS e son cosin » ; « N'EGO DE LA BACALARIA ed En GAUSELIM FAIDITZ » ; « La tenzon de ROFIN e de domna H » ; « SAVARICS DE MALEON ed En PREBOST » ; « LO DALFIN ed En PEIROL » ; « ALBERTET et En GAUSSCELM FAIDITZ » ; « De N'EBLES e de son seingnor » ; « ALBERTETZ el monge » ; « BERTRAM DE GORDON et En PEIRE RAIMON » ; « La tenzon de l'oste e de GUILLEM » ; « La tenzon de seigner MONTAN e de la domna » ; 3° Sirventes ; « PEIRE CARDINAL » ; « BERTRANS DE BORN » ; « Sirventes del rei RICHART » ; « Sirventes del DALFIN D'ALVERNE » ; « LO DALFINS D'ALVERNE » ; « BERTRANS DEL POJET » ; « RAIMONS DE DURFORT » ; « TURCS MALECS » ; « ARNAUTZ DANIELS » ; « RAEMBAUTZ DE VAQUERAS » ; « GUILLEMS FIGUERA » ; « GUIRATZ DE BORNEILL » ; « LO MONGE DE POCIBOT » ; « En SORDEL » ; « BERTRANS DE LAMANON » ; « N'AIMERICS DE PIGUILLAN » ; « ALBERTETZ CAILLA » ; « FOLQUET DE ROMANS » ; « OGIERS » ; « PEIRE DE BARJAC » ; « PEIRE DE BOSIGNAC » ; « TOMIERS En PALAZIS » ; « RAIMONS D'AVIGNON » ; « GARINS D'APCHIER » ; « TORCAFOLS » ; « GARIS D'APCHIER » ; « TORCAFOLS » ; « GUILLEMS DE BERGUEDAN » ; « GUIRAUTZ DE LUC » ; « GAUSELM FAIDITZ » ; « GIRAUTZ DE SALAINGNAC » ; « LO MONGE DE MONTAUDON » ; « PEIRE DE LA CARAVANA » ; « PEIRE D'ALVERNE » ; « REFORSAT DE FOLCAQUIER » ; « PEIRE DE BRAGAIRAC » ; « BERNART DE LA BARDA » ; « AICARTZ DEL FOSSAT » ; « PEIRE DE BOSSIGNAC » ; « OGIERS » ; « MARCOAT » ; « PONS BARBA » ; « N'UC DE SAINT CIRC » ; « GAUSELM FAIDITZ » ; « PONZ DE CAPDUOILL » ; « N'AIMERICS DE PIGUILLAN »