Pregnancy-induced chromatin remodeling in the breast of postmenopausal women.

Early pregnancy and multiparity are known to reduce the risk of women to develop breast cancer at menopause. Based on the knowledge that the differentiation of the breast induced by the hormones of pregnancy plays a major role in this protection, this work was performed with the purpose of identifying what differentiation-associated molecular changes persist in the breast until menopause. Core needle biopsies (CNB) obtained from the breast of 42 nulliparous (NP) and 71 parous (P) postmenopausal women were analyzed in morphology, immunocytochemistry and gene expression. Whereas in the NP breast, nuclei of epithelial cells were large and euchromatic, in the P breast they were small and hyperchromatic, showing strong methylation of histone 3 at lysine 9 and 27. Transcriptomic analysis performed using Affymetrix HG_U133 oligonucleotide arrays revealed that in CNB of the P breast, there were 267 upregulated probesets that comprised genes controlling chromatin organization, transcription regulation, splicing machinery, mRNA processing and noncoding elements including XIST. We concluded that the differentiation process induced by pregnancy is centered in chromatin remodeling and in the mRNA processing reactome, both of which emerge as important regulatory pathways. These are indicative of a safeguard step that maintains the fidelity of the transcription process, becoming the ultimate mechanism mediating the protection of the breast conferred by full-term pregnancy.

Functional expression of a pseudohypoaldosteronism type I mutated epithelial Na+ channel lacking the pore-forming region of its alpha subunit.

The autosomal recessive form of type I pseudohypoaldosteronism (PHA-I) is an inherited salt-losing syndrome resulting from diminution-of-function mutations in the 3 subunits of the epithelial Na+ channel (ENaC). A PHA-I stop mutation (alpha(R508stop)) of the ENaC alpha subunit is predicted to lack the second transmembrane domain and the intracellular COOH-terminus, regions of the protein involved in pore function. Nonetheless, we observed a measurable Na+ current in Xenopus laevis oocytes that coexpress the beta and gamma subunits with the truncated alpha subunit. The mutant alpha was coassembled with beta and gamma subunits and was present at the cell surface at a lower density, consistent with the lower Na+ current seen in oocytes with the truncated alpha subunit. The single-channel Na+ conductance for the mutant channel was only slightly decreased, and the appearance of the macroscopic currents was delayed by 48 hours with respect to wild-type. Our data suggest novel roles for the alpha subunit in the assembly and targeting of an active channel to the cell surface, and suggest that channel pores consisting of only the beta and gamma subunits can provide significant residual activity. This activity may be sufficient to explain the absence of a severe pulmonary phenotype in patients with PHA-I.

Guidelines for the use and interpretation of assays for monitoring autophagy.

In 2008 we published the first set of guidelines for standardizing research in autophagy. Since then, research on this topic has continued to accelerate, and many new scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Accordingly, it is important to update these guidelines for monitoring autophagy in different organisms. Various reviews have described the range of assays that have been used for this purpose. Nevertheless, there continues to be confusion regarding acceptable methods to measure autophagy, especially in multicellular eukaryotes. A key point that needs to be emphasized is that there is a difference between measurements that monitor the numbers or volume of autophagic elements (e.g., autophagosomes or autolysosomes) at any stage of the autophagic process vs. those that measure flux through the autophagy pathway (i.e., the complete process); thus, a block in macroautophagy that results in autophagosome accumulation needs to be differentiated from stimuli that result in increased autophagic activity, defined as increased autophagy induction coupled with increased delivery to, and degradation within, lysosomes (in most higher eukaryotes and some protists such as Dictyostelium) or the vacuole (in plants and fungi). In other words, it is especially important that investigators new to the field understand that the appearance of more autophagosomes does not necessarily equate with more autophagy. In fact, in many cases, autophagosomes accumulate because of a block in trafficking to lysosomes without a concomitant change in autophagosome biogenesis, whereas an increase in autolysosomes may reflect a reduction in degradative activity. Here, we present a set of guidelines for the selection and interpretation of methods for use by investigators who aim to examine macroautophagy and related processes, as well as for reviewers who need to provide realistic and reasonable critiques of papers that are focused on these processes. These guidelines are not meant to be a formulaic set of rules, because the appropriate assays depend in part on the question being asked and the system being used. In addition, we emphasize that no individual assay is guaranteed to be the most appropriate one in every situation, and we strongly recommend the use of multiple assays to monitor autophagy. In these guidelines, we consider these various methods of assessing autophagy and what information can, or cannot, be obtained from them. Finally, by discussing the merits and limits of particular autophagy assays, we hope to encourage technical innovation in the field.

Vasopressin-dependent coupling between sodium transport and water flow in a mouse cortical collecting duct cell line.

Water balance is achieved through the ability of the kidney to control water reabsorption in the connecting tubule and the collecting duct. In a mouse cortical collecting duct cell line (mCCD(c11)), physiological concentrations of arginine vasopressin increased both electrogenic, amiloride-sensitive, epithelial sodium channel (ENaC)-mediated sodium transport measured by the short-circuit current (Isc) method and water flow (Jv apical to basal) measured by gravimetry with similar activation coefficient K(1/2) (6 and 12 pM, respectively). Jv increased linearly according to the osmotic gradient across the monolayer. A small but highly significant Jv was also measured under isoosmotic conditions. To test the coupling between sodium reabsorption and water flow, mCCD(c11) cells were treated for 24 h under isoosmotic condition with either diluent, amiloride, vasopressin or vasopressin and amiloride. Isc, Jv, and net chemical sodium fluxes were measured across the same monolayers. Around 30% of baseline and 50% of vasopressin-induced water flow is coupled to an amiloride-sensitive, ENaC-mediated, electrogenic sodium transport, whereas the remaining flow is coupled to an amiloride-insensitive, nonelectrogenic sodium transport mediated by an unknown electroneutral transporter. The mCCD(c11) cell line is a first example of a mammalian tight epithelium allowing quantitative study of the coupling between sodium and water transport. Our data are consistent with the 'near isoosmotic' fluid transport model.

Changes in microRNA expression contribute to pancreatic β-cell dysfunction in prediabetic NOD mice.

During the initial phases of type 1 diabetes, pancreatic islets are invaded by immune cells, exposing β-cells to proinflammatory cytokines. This unfavorable environment results in gene expression modifications leading to loss of β-cell functions. To study the contribution of microRNAs (miRNAs) in this process, we used microarray analysis to search for changes in miRNA expression in prediabetic NOD mice islets. We found that the levels of miR-29a/b/c increased in islets of NOD mice during the phases preceding diabetes manifestation and in isolated mouse and human islets exposed to proinflammatory cytokines. Overexpression of miR-29a/b/c in MIN6 and dissociated islet cells led to impairment in glucose-induced insulin secretion. Defective insulin release was associated with diminished expression of the transcription factor Onecut2, and a consequent rise of granuphilin, an inhibitor of β-cell exocytosis. Overexpression of miR-29a/b/c also promoted apoptosis by decreasing the level of the antiapoptotic protein Mcl1. Indeed, a decoy molecule selectively masking the miR-29 binding site on Mcl1 mRNA protected insulin-secreting cells from apoptosis triggered by miR-29 or cytokines. Taken together, our findings suggest that changes in the level of miR-29 family members contribute to cytokine-mediated β-cell dysfunction occurring during the initial phases of type 1 diabetes.

IRF6 is a mediator of Notch pro-differentiation and tumour suppressive function in keratinocytes.

While the pro-differentiation and tumour suppressive functions of Notch signalling in keratinocytes are well established, the underlying mechanisms remain poorly understood. We report here that interferon regulatory factor 6 (IRF6), an IRF family member with an essential role in epidermal development, is induced in differentiation through a Notch-dependent mechanism and is a primary Notch target in keratinocytes and keratinocyte-derived SCC cells. Increased IRF6 expression contributes to the impact of Notch activation on growth/differentiation-related genes, while it is not required for induction of 'canonical' Notch targets like p21(WAF1/Cip1), Hes1 and Hey1. Down-modulation of IRF6 counteracts differentiation of primary human keratinocytes in vitro and in vivo, promoting ras-induced tumour formation. The clinical relevance of these findings is illustrated by the strikingly opposite pattern of expression of Notch1 and IRF6 versus epidermal growth factor receptor in a cohort of clinical SCCs, as a function of their grade of differentiation. Thus, IRF6 is a primary Notch target in keratinocytes, which contributes to the role of this pathway in differentiation and tumour suppression.

IRF6 is a mediator of Notch pro-differentiation and tumour suppressive function in keratinocytes.

While the pro-differentiation and tumour suppressive functions of Notch signalling in keratinocytes are well established, the underlying mechanisms remain poorly understood. We report here that interferon regulatory factor 6 (IRF6), an IRF family member with an essential role in epidermal development, is induced in differentiation through a Notch-dependent mechanism and is a primary Notch target in keratinocytes and keratinocyte-derived SCC cells. Increased IRF6 expression contributes to the impact of Notch activation on growth/differentiation-related genes, while it is not required for induction of 'canonical' Notch targets like p21(WAF1/Cip1), Hes1 and Hey1. Down-modulation of IRF6 counteracts differentiation of primary human keratinocytes in vitro and in vivo, promoting ras-induced tumour formation. The clinical relevance of these findings is illustrated by the strikingly opposite pattern of expression of Notch1 and IRF6 versus epidermal growth factor receptor in a cohort of clinical SCCs, as a function of their grade of differentiation. Thus, IRF6 is a primary Notch target in keratinocytes, which contributes to the role of this pathway in differentiation and tumour suppression.

Missale ad usum ecclesiae Parisiensis .

Cf. notice du ms. par Leroquais, Sacramentaires, II, 180-183 n° 366. Les incipit des proses ont été relevés dans la table des incipit. F. 1-6v Calendrier de Paris : 3 janv., en rouge, «Genovefe virg. IX lc.» (1); 22 avr., «Inventio corporis s. Dyonisii sociorumque ejus. Oportune virg. semid.» (2v); 28 mai, en rouge, «Germani ep. Parisiensis semid. Carauni mart. memoria» (3); 25juin, en violet, «Translatio s. Eligii ep.» (3v); en violet, «In prima dominica hujus mensis [augusti] fit d. de cruce» [réception à Notre-Dame d'un fragment de la vraie Croix] (4v); 9 oct., en rouge, «Dyonisii sociorumque ejus duplex» (5v); 28 oct., «Germani ep. Translatio s. Genovefe virg. mart. memoria» (5v); 3 nov. «Marcelli ep. Parisiensis dupl.»; 13 nov., «Gendulphi ep. et conf. [Parisiensis] dupl.»; 26 nov., en violet, «Genovefe virg. de miraculo [ardentium] IX lc.» (6); 4 déc., «Susceptio capillorum b. Marie et capitis b. Dyonisii in ecclesia Parisiensi» (6v). Le calendrier ne contient pas la fête de s. Louis au 25 août (établie en 1298) ni au 17 mai la translation du chef de s. Louis à la Sainte-Chapelle (en 1306); — Ajout du XIVe s. au 30 avr., «Eutropii mart. et conf.» [culte établi à Paris en 1296] (2v); cf. Leroquais, Bréviaires, I, CXII-CXIII, Tableau chronologique des fêtes parisiennes. — Au début de chaque mois, vers sur les jours égyptiaques (éd. Hennig, Traditio, XI (1955), 84 III), sauf celui de janvier (1) qui correspond au premier vers de la série éd. par Riese (Anthol. lat., I2 (1906), 680a); — À la fin de février, vers sur l'année bissextile : «Byssextum sexte martis tenuere kalende...»; cf. ms. Latin 3162, f. 102 (1v); — À la fin de mars, vers sur la date de Pâques : «Post martis nonas ubi sit nova luna requiras...» (2); — Notations astrologiques et de comput, passim. F. 7-353v Temporal, avec parties chantées notées. Incomplet du début par la perte du premier f., il commence dans la prose du premier dimanche de l'Avent : «... [eterna indefici]ens mundi vita...» (7). À remarquer : «dominica IIIa [in Adventu] more ecclesie Parisiensis» (24v); — Cérémonie des Cendres avec rubriques liturgiques (62v-66v); — Dimanche des Rameaux, «congregatis processionibus conventualibus in ecclesia B. Marie, capiceriis portantibus capsam et tribus clericis in albis paratis tres textus, exitur de ecclesia nichil cantando et sic eundum est ad ecclesiam Sancte Genovefe de Monte...» (147); cf. Leroquais, 181; — Dans l'évangile des Rameaux, le Christ est désigné par la lettre L, le narrateur par la lettre C et les autres par la lettre S (153-158); dans les autres évangiles de la Passion (162-186 passim), ces lettres suscrites ont été effacées et remplacées à la mine de plomb de façon sporadique, le Christ étant alors désigné par une croix; — «Oremus pro papa nostro N...» (186v); «... pro christianissimo rege nostro N...» (187); — Parmi les litanies, «s.Stephane... s. Dyonisi...» (191v)..., « s. Lucane... s. Justine... s. Gendulphe... s. Germane...» (199)..., « s. Genovefa...» (201v). — «Incipit ordo misse. Sacerdos primo induat se rocheto dicens : Actiones nostras...» (203v-206); pour les rubriques liturgiques, cf. Leroquais, 181; — Préfaces notées : «Incipiunt prefationes...» (206-210); — Canon de la messe (210-213); pour les rubriques liturgiques, cf. Leroquais, 182; — «In die Re[sur]rectionis» (214); — «In die sancto [Pentecostes]» (262v); — [De sancta Trinitate] (280v); — «Dominica XXVa» (348v); — «In dedicatione ecclesie» (350-353v). La fête du Saint-Sacrement ne figure pas. F. 354-496v Sanctoral, avec parties chantées notées. À noter parmi les saints parisiens : 3 janv., «S. Genovefe virg.» (373v); 22 avr., «Inventio corporis s. Dyonisii, Rustici et Eleuterii» (398v); — 28 mai, «S. Germani ep. Parisiensis» (407v); — 10 juin, «S. Landerici Parisiensis ep.» (410); — 26 juill., «In translatione s. Marcelli» (432); — 11août, «De receptione s. corone...» (443v); —, 4 oct., «Auree virg. [abb. Parisiis]» (480); 9 oct., «In die [s. Dyonisii]», avec octave (481v); — 28oct., «In translatione s. Genovefe» (487); — 3nov., «S. Marcelli Parisiensis ep.», avec octave (489v); — 26 nov., «S. Genovefe de miraculo ardentium» (495); — «De s. Gendulpho. Prosa» (495). F. 497-541 Commun des saints, avec pièces chantées notées. F. 541-559 Messes votives, sans parties notées à l'exception de la messe des morts (551v-556). Aux ff. 546v-547, en marge de la messe «pro amico», deux additions d'une écriture cursive de la fin du XIVe s. précisent : «ducem nostrum et duxissem ejusque prolem». — Prières diverses (556-559). F. 559-563 Rituel de mariage. «Incipit ordo ad sponsam benedicendam. Cum venerint ante valvas ecclesie sponsus et sponsa, accinctus sacerdos alba et stola... auxilium et argentum super scutum positum benedicat dicens : Manda Deus... Tunc aspergatur aqua benedicta et thurificetur et sponsus et sponsa; quo facto sacerdos dicat : Bones genz nos avons faiz les bans III foiz de ces II genz et encore les faison nous, que se il i a nul ne nule qui sache enpeschement par quoi l'un ne puisse avoir l'autre par loi de mariage, si le die. Et re[spon]dent assistentes : Nous ni savons se bien non. Quo audito, accipiat sacerdos manum dexteram sponse et ponat in dextera manu sponsi et dicat... nominandos eos : Vos Marie et vos Jeham vous prometez, fianciez et jurez l'un à l'autre à garder la foi et la loiauté du mariage... Tunc sacerdos tradat anulum sponso et sponsus autem per manum sacerdotis primo in police sponse... dicens... : Marie de cest annel t'espous et de mon cors t'ennor et de douaire qui est devisiez entre mes amis et les tiens. In nomine... Secundo in indice dicens... Tercio in medio dicens : Et Spiritus sancti. Amen... Postea sacerdos extensa manu super illos dicat orationes... Tunc sacerdos centus [sic] sponsum per manum dexteram et sponsam et introducat eos in ecclesiam...» (559-559bis); — Messe de mariage, comportant deux préfaces notées : «Deinde celebratur missa...» (559bis-562v); pour les rubriques liturgiques, cf. Leroquais, 183. — «Missa celebrata, recedant sponsus et sponsa et, ipsis stantibus ante hostium domus illorum presentibus pane et vinum [sic], faciat sacerdos benedictionem super panem dicens : Benedic Domine creaturam... Tunc sponsus mordet in pane, postea sponsa. Item benedictio super vinum... Tunc sponsus bibat, postea sponsa. Quo facto introducit eos sacerdos per manum in domum... Item in sero benedictio thalami... Tunc turificet thalamum, postea sponsum et sponsam sedentes vel jacentes in lecto suo benedicat dicens : Benedic Domine adulescentulos...» (562v-563) (éd. avec variantes par E. Martène, De antiquis Ecclesiae ritibus, II, 374-376, d'après le ms. Latin 859A); même ordo dans le ms. NAL 2649, f. 333-336. F. 563-565v Exorcisme de l'eau et du sel (563-564v). — «Pro Terra sancta» (564v-565). — «Pro rege nostro» (565). — «Benedictio pere et baculi peregrinorum» (565-565v). — «Benedictio crucis... Benedictio novorum fructuum... Benedictio panis» (565v).

A mutation causing pseudohypoaldosteronism type 1 identifies a conserved glycine that is involved in the gating of the epithelial sodium channel.

Pseudohypoaldosteronism type 1 (PHA-1) is an inherited disease characterized by severe neonatal salt-wasting and caused by mutations in subunits of the amiloride-sensitive epithelial sodium channel (ENaC). A missense mutation (G37S) of the human ENaC beta subunit that causes loss of ENaC function and PHA-1 replaces a glycine that is conserved in the N-terminus of all members of the ENaC gene family. We now report an investigation of the mechanism of channel inactivation by this mutation. Homologous mutations, introduced into alpha, beta or gamma subunits, all significantly reduce macroscopic sodium channel currents recorded in Xenopus laevis oocytes. Quantitative determination of the number of channel molecules present at the cell surface showed no significant differences in surface expression of mutant compared with wild-type channels. Single channel conductances and ion selectivities of the mutant channels were identical to that of wild-type. These results suggest that the decrease in macroscopic Na currents is due to a decrease in channel open probability (P(o)), suggesting that mutations of a conserved glycine in the N-terminus of ENaC subunits change ENaC channel gating, which would explain the disease pathophysiology. Single channel recordings of channels containing the mutant alpha subunit (alphaG95S) directly demonstrate a striking reduction in P(o). We propose that this mutation favors a gating mode characterized by short-open and long-closed times. We suggest that determination of the gating mode of ENaC is a key regulator of channel activity.