Mobile Derivational Micro-HPP for Reserve Water Supply and Standby Power Service of Recreation Facilities and Harbour Installations of Russky Island

The article considers the problems of justification of derivational micro-HPP usage for reserve water supply and standby power service of harbour installations for Russky Island. The first part of the article describes the justification of the power supply necessity for recreation facilities and yachting harbour installations (marinas) on Russky Island, including the prospect of their further development and new construction activities. The second part of the article considers the justification of innovative technologies usage of mobile derivational micro-HPP for recreation facilities and harbour installations power supply. The third part of the article deals with the principal design parameters for calculation of composite mobile diversion conduit and its cable-stayed system schemes which are used to fix the diversion conduit in light of wind effects. The forth part of the article shows the simulation modeling of the diversion conduit

Option pricing under regime-switching models: Novel approaches removing path-dependence

A well-known approach for the pricing of options under regime-switching models is to use the regime-switching Esscher transform (also called regime-switching mean-correcting martingale measure) to obtain risk-neutrality. One way to handle regime unobservability consists in using regime probabilities that are filtered under this risk-neutral measure to compute risk-neutral expected payoffs. The current paper shows that this natural approach creates path-dependence issues within option price dynamics. Indeed, since the underlying asset price can be embedded in a Markov process under the physical measure even when regimes are unobservable, such path-dependence behavior of vanilla option prices is puzzling and may entail non-trivial theoretical features (e.g., time non-separable preferences) in a way that is difficult to characterize. This work develops novel and intuitive risk-neutral measures that can incorporate regime risk-aversion in a simple fashion and which do not lead to such path-dependence side effects. Numerical schemes either based on dynamic programming or Monte-Carlo simulations to compute option prices under the novel risk-neutral dynamics are presented

Vascular smooth muscle contractility assays for inflammatory and immunological mediators

The blood vessels are one of the important target tissues for the mediators of inflammation and allergy; further cytokines affect them in a number of ways. We review the use of the isolated blood vessel mounted in organ baths as an important source of pharmacological information. While its use in the bioassay of vasoactive substances tends to be replaced with modern analytical techniques, contractility assays are effective to evaluate novel synthetic drugs, generating robust potency and selectivity data about agonists, partial agonists and competitive or insurmountable antagonists. For instance, the human umbilical vein has been used extensively to characterize ligands of the bradykinin B2 receptors. Isolated vascular segments are live tissues that are intensely reactive, notably with the regulated expression of gene products relevant for inflammation (e.g., the kinin B1 receptor and inducible nitric oxide synthase). Further, isolated vessels can be adapted as assays of unconventional proteins (cytokines such as interleukin-1, proteases of physiopathological importance, complement-derived anaphylatoxins and recombinant hemoglobin) and to the gene knockout technology. The well known cross-talks between different cell types, e.g., endothelium-muscle and nerve terminal-muscle, can be extended (smooth muscle cell interaction with resident or infiltrating leukocytes and tumor cells). Drug metabolism and distribution problems can be modeled in a useful manner using the organ bath technology, which, for all these reasons, opens a window on an intermediate level of complexity relative to cellular and molecular pharmacology on one hand, and in vivo studies on the other

Huntingtin mediates anxiety/depression-related behaviours in mouse through BDNF transport and hippocampal neurogenesis

peer reviewe

Murine Gamma-herpesvirus Immortalization of Fetal Liver-Derived B Cells Requires both the Viral Cyclin D Homolog and Latency-Associated Nuclear Antigen

Human gammaherpesviruses are associated with the development of lymphoproliferative diseases and B cell lymphomas, particularly in immunosuppressed hosts. Understanding the molecular mechanisms by which human gammaherpesviruses cause disease is hampered by the lack of convenient small animal models to study them. However, infection of laboratory strains of mice with the rodent virus murine gammaherpesvirus 68 (MHV68) has been useful in gaining insights into how gammaherpesviruses contribute to the genesis and progression of lymphoproliferative lesions. In this report we make the novel observation that MHV68 infection of murine day 15 fetal liver cells results in their immortalization and differentiation into B plasmablasts that can be propagated indefinitely in vitro, and can establish metastasizing lymphomas in mice lacking normal immune competence. The phenotype of the MHV68 immortalized B cell lines is similar to that observed in lymphomas caused by KSHV and resembles the favored phenotype observed during MHV68 infection in vivo. All established cell lines maintained the MHV68 genome, with limited viral gene expression and little or no detectable virus production - although virus reactivation could be induced upon crosslinking surface Ig. Notably, transcription of the genes encoding the MHV68 viral cyclin D homolog (v-cyclin) and the homolog of the KSHV latency-associated nuclear antigen (LANA), both of which are conserved among characterized γ2-herpesviruses, could consistently be detected in the established B cell lines. Furthermore, we show that the v-cyclin and LANA homologs are required for MHV68 immortalization of murine B cells. In contrast the M2 gene, which is unique to MHV68 and plays a role in latency and virus reactivation in vivo, was dispensable for B cell immortalization. This new model of gammaherpesvirus-driven B cell immortalization and differentiation in a small animal model establishes an experimental system for detailed investigation of the role of gammaherpesvirus gene products and host responses in the genesis and progression of gammaherpesvirus-associated lymphomas, and presents a convenient system to evaluate therapeutic modalities

Syndrome d'apnées obstructives du sommeil et risque cardiovasculaire (approches biologique, clinique et fondamentale)

Le Syndrome d'Apnées Obstructives du Sommeil (SAOS) est défini par la survenue durant le sommeil d'épisodes fréquents d'obstruction complète ou partielle des voies aériennes supérieures, responsables d'apnées/hypopnées. L'hypoxie intermittente (HI) qui en résulte est responsable, à long terme, d'une augmentation de la morbi-mortalité cardiovasculaire (CV) dans un contexte de forte prévalence de syndrome métabolique, d'obésité et d'insulinorésistance. Certains patients SAOS obèses présentent une hypoventilation/hypercapnie, caractérisant le syndrome d'obésité hypoventilation (SOH) dont la morbi-mortalité CV est encore plus sévère que le SAOS seul. Le stress oxydant, l'inflammation de bas grade et la dérégulation du métabolisme glucido-lipidique et hormonal sont parmi les mécanismes clés responsables de la dysfonction endothéliale et in fine de l'augmentation du risque CV chez ces patients. Cependant, si ces mécanismes délétères sont démontrés par de nombreuses études fondamentales, leur mise en évidence en clinique est moins évidente, notamment du fait des multiples facteurs de co-morbidité. La première partie clinico-biologique de ce travail a été consacrée à la mise en évidence, chez des patients porteurs d'un SAOS ou d'un SOH, des déséquilibres métaboliques et hormonaux impliquant le stress oxydant, en lien avec la sévérité de ces syndromes et leurs conséquences CV. Nous avons ainsi montré chez des patients SOH les plus sévères une altération de la fonction somatotrope proportionnelle à la dysfonction respiratoire et à l'hypertriglycéridémie. Nous avons ensuite mis en évidence, chez des patients SAOS non obèses, l'implication du stress oxydant lipidique dans l'athérosclérose précoce associée à la sévérité du SAOS. Enfin, nous nous sommes intéressés à l'homocystéinémie, facteur de risque cardio-vasculaire connu, chez des patients porteurs d'un syndrome métabolique présentant ou non un SAOS. Nous avons observé une majoration de l'homocystéinémie chez les patients souffrant d'un SAOS par rapport aux patients SMet non SAOS, en lien avec la sévérité des apnées/hypopnées, avec l'athérosclérose précoce, ainsi qu'avec un déséquilibre de la balance pro/antioxydante. Dans une seconde partie fondamentale, nous avons étudié les effets de l'endothéline-1 (ET-1), peptide vasoconstricteur d'origine endothéliale dont la sécrétion est majorée par l'HI, sur le métabolisme d'adipocytes en culture. Nous avons montré que ce peptide majore la lipolyse adipocytaire via les récepteur ET-1 de type A, tend à diminuer l'incorporation du glucose, et ce de manière opposée et additionnelle aux effets de l'insuline. Chez le rat Wistar exposé 14 jours à l'HI, nous avons observé une activation du système endothéline associée à un remodelage du tissu adipeux avec diminution de taille adipocytaire. Au-delà de ses effets vasoconstricteurs, ET-1 déséquilibre donc le métabolisme glucido-lipidique adipocytaire, et pourrait ainsi participer activement à l'insulinorésistance des patients SAOS obèses. Le rôle du système endothéline au niveau du métabolisme énergétique et son impact sur le tissu adipeux constituent donc des pistes sérieuses à explorer dans ce contexte. Mots-clés : Syndrome d'apnées obstructives du sommeil, syndrome d'obésité hypoventilation, stress oxydant, hypoxie intermittente, endothéline-1, insulinorésistance, lipolyse, adipocyte et tissu adipeux.Obstructive Sleep Apnea Syndrome (OSAS) is defined by recurrent complete (apnea) or partial (hypopnea) upper airway obstructions during sleep. The resulting intermittent hypoxia (IH) is responsible for a long-term increase in cardiovascular (CV) morbi-mortality in a context of strong prevalence of metabolic syndrome, obesity and insulin resistance. Some obese OSAS patients present with Obesity Hypoventilation Syndrome (OHS) characterized by hypoventilation/hypercapnia and an even higher risk of cardiovascular morbi-mortality. Oxidative stress, low-grade inflammation, gluco-lipidic and hormonal alterations are among the key mechanisms leading to endothelial dysfunction and in fine to increased CV risk in OSAS. However, these various mechanisms have been identified by fundamental studies and their relevance in clinical research is less evident, in particular because of the presence of multiple comorbidity factors. The clinicobiological part of this work was devoted to the exploration of the oxidative stress-related metabolic and hormonal changes in OSAS and OHS patients, in relation with the severity of these diseases and their associated CV consequences. In the most severe OHS patients, we showed an impairment of the somatotropic axis linked to respiratory dysfunction and increase in triglycerides. We then highlighted, in non-obese OSAS patients, the involvement of lipid oxidative stress in early atherosclerosis and its association with OSAS severity. Finally, we investigated homocysteine, a well-known CV risk factor, in patients suffering from metabolic syndrome (MS) with or without OSAS. We observed an increase in homocysteinemia in OSAS+MS patients compared to non-OSAS+MS patients, linked to the severity of sleep apnea, to early atherosclerosis, as well as to pro/antioxidative imbalance. In the experimental part, we investigated the effects of the hypoxia-released vasoconstrictor peptide endothelin-1 (ET-1) on the metabolism of 3T3-L1 adipocytes in vitro. We showed that through its type-A receptor, ET-1 increases adipocyte lipolysis, tends to decrease glucose uptake and significantly inhibits the effects of insulin. Moreover, ET-1 stimulates its own expression, and expression of its ET-A receptor in 3T3-L1 cells. In parallel, in Wistar rats exposed to 14 days of IH, we observed an activation of the endothelin system associated with a remodelling of adipose tissue characterized by a decrease in adipocyte size. In conclusion, beyond its vasoconstrictor effects, ET-1 can modify glucose and lipid metabolism of adipocytes, and could thus actively participate in the insulin resistance and dyslipidemia observed in OSAS obese patient. The role of the endothelin system in energetic metabolism and its impact on adipose tissue thus represent promising avenues to be investigated in OSAS. Keywords: obstructive sleep apnea syndrome, obesity hypoventilation syndrome, oxidative stress, intermittent hypoxia, endothelin-1, insulin resistance, lipolysis, adipocyte and adipose tissue.SAVOIE-SCD - Bib.électronique (730659901) / SudocGRENOBLE1/INP-Bib.électronique (384210012) / SudocGRENOBLE2/3-Bib.électronique (384219901) / SudocSudocFranceF

On Fund Mapping Regressions Applied to Segregated Funds Hedging Under Regime-Switching Dynamics

Insurers issuing segregated fund policies apply dynamic hedging to mitigate risks related to guarantees embedded in such policies. A typical industry practice consists of using fund mapping regressions to represent basis risk stemming from the imperfect correlation between the underlying fund and its corresponding hedging instruments. The current work discusses the implications of using fund mapping regressions when the joint dynamics of the underlying and hedging assets is a regime-switching process. The potential underestimation of capital requirements stemming from the use of a fund mapping regression under such dynamics is discussed. The magnitude of the latter phenomenon is quantified through simulations calibrated on market data

Enhanced UWB Indoor tracking through NLOS TOA bias estimation

International audienc