[Use of murine models for the study of obstructive sleep apnea syndrome in Down syndrome]. / Utilisation des modèles murins pour l'étude du syndrome d'apnées obstructives du sommeil dans le syndrome de Down.

Down syndrome (DS), or trisomy 21, is a genetic disorder caused by the presence of an extra copy of chromosome 21, leading to various characteristic physical features as well as developmental and cognitive delays. Obstructive sleep apnea syndrome (OSAS) is a common disorder in both adult and pediatric patients with DS. Several characteristics of DS may contribute to the development or worsening of OSAS. Numerous murine models of DS exist. A number of studies have explored apneas and the risk of upper airway obstruction in these models, but up until now, only in adulthood.

Cerebral Phospho-Tau Acts Synergistically with Soluble Aß42 Leading to Mild Cognitive Impairment in AAV-AD Rats.

BACKGROUND: Alzheimer's disease (AD) is a continuum of events beginning with an increase in brain soluble Aß42 followed by the appearance of hyperphosphorylated tau (P-tau, asymptomatic stage). Mild Cognitive Impairment (MCI) then appears (prodromal stage). However, the individual contribution of these two soluble proteins in the onset of the first cognitive symptoms remains unclear. OBJECTIVES: We sought to understand the specific impact of p-tau on the development of MCI in the AAV-AD rat model, a model of late-onset Alzheimer's disease (LOAD) predementia. METHODS: We specifically reduced the phosphorylation level of tau while leaving Aß42 levels unchanged using a DYRK1A protein kinase inhibitor, Leucettine L41, in an adeno-associated virus-based Alzheimer's disease (AAV-AD) rat model. Leucettine L41 was administered by intraperitoneal injection at 20 mg/kg per day in AAV-AD rats from 9 (late asymptomatic phase) to 10 (prodromal phase) months of age. RESULTS: Decreased soluble forms of P-tau induced by chronic administration of Leucettine L41 did not change soluble Aß42 levels but prevented MCI onset in 10-month-old AAV-AD rats. CONCLUSIONS: The present study argues that P-tau is required to induce the development of MCI. Consistent with our previous findings that soluble Aß42 is also required for MCI onset, the data obtained in the AAV-AD rat model confirm that the transition from the asymptomatic to the prodromal stage may be caused by the combined presence of both soluble brain forms of Aß42 and p-tau, suggesting that the development of MCI may be the consequence of their synergistic action.

Alterations in the Serotonin and Dopamine Pathways by Cystathionine Beta Synthase Overexpression in Murine Brain.

Cystathionine beta synthase (CBS) is one of the 225 genes on chromosome 21 (HSA 21) that are triplicated in persons with trisomy 21 (Down syndrome). Although most triplicate HSA21 genes have their orthologous genes on murine chromosome 16, the murine ortholog of hCBS is on murine chromosome 17 and thus is not present in the well-studied Ts65Dn mouse model of trisomy 21. Persons with trisomy 21 (T21) present deficits in neurotransmission and exhibit early brain aging that can partially be explained by monoamine neurotransmitter alterations. We used transgenic mice for the hCBS gene, which overexpress the CBS protein in various brain regions, to study if CBS overexpression induces modifications in the monoamine neurotransmitters in the hypothalamus, thalamus, hippocampus, and striatum from transgenic and control female and male mice aged 3-4 months and 11-12 months. Sex, age, and brain area each influenced neurotransmitter levels. Briefly, the serotonin pathway was modified by CBS overexpression in various brain areas in female mice but not in male mice. The dopamine pathway was modified in brain regions according to sex and age. These results may allow us to better understand the role of the transsulfuration pathway and especially CBS overexpression in the metabolism of biogenic amines and the catecholamine catabolism in persons with trisomy 21.

Increased levels of inflammatory plasma markers and obesity risk in a mouse model of Down syndrome.

Down syndrome (DS) is caused by the trisomy of human chromosome 21 and is the most common genetic cause of intellectual disability. In addition to the intellectual deficiencies and physical anomalies, DS individuals present a higher prevalence of obesity and subsequent metabolic disorders than healthy adults. There is increasing evidence from both clinical and experimental studies indicating the association of visceral obesity with a pro-inflammatory status and recent studies have reported that obese people with DS suffer from low-grade systemic inflammation. However, the link between adiposity and inflammation has not been explored in DS. Here we used Ts65Dn mice, a validated DS mouse model, for the study of obesity-related inflammatory markers. Ts65Dn mice presented increased energy intake, and a positive energy balance leading to increased adiposity (fat mass per body weight), but did not show overweight, which only was apparent upon high fat diet induced obesity. Trisomic mice also had fasting hyperglycemia and hypoinsulinemia, and normal incretin levels. Those trisomy-associated changes were accompanied by reduced ghrelin plasma levels and slightly but not significantly increased leptin levels. Upon a glucose load, Ts65Dn mice showed normal increase of incretins accompanied by over-responses of leptin and resistin, while maintaining the hyperglycemic and hypoinsulinemic phenotype. These changes in the adipoinsular axis were accompanied by increased plasma levels of inflammatory biomarkers previously correlated with obesity galectin-3 and HSP72, and reduced IL-6. Taken together, these results suggest that increased adiposity, and pro-inflammatory adipokines leading to low-grade inflammation are important players in the propensity to obesity in DS. We conclude that DS would be a case of impaired metabolic-inflammatory axis.

Combined assessment of DYRK1A, BDNF and homocysteine levels as diagnostic marker for Alzheimer's disease.

Early identification of Alzheimer's disease (AD) risk factors would aid development of interventions to delay the onset of dementia, but current biomarkers are invasive and/or costly to assess. Validated plasma biomarkers would circumvent these challenges. We previously identified the kinase DYRK1A in plasma. To validate DYRK1A as a biomarker for AD diagnosis, we assessed the levels of DYRK1A and the related markers brain-derived neurotrophic factor (BDNF) and homocysteine in two unrelated AD patient cohorts with age-matched controls. Receiver-operating characteristic curves and logistic regression analyses showed that combined assessment of DYRK1A, BDNF and homocysteine has a sensitivity of 0.952, a specificity of 0.889 and an accuracy of 0.933 in testing for AD. The blood levels of these markers provide a diagnosis assessment profile. Combined assessment of these three markers outperforms most of the previous markers and could become a useful substitute to the current panel of AD biomarkers. These results associate a decreased level of DYRK1A with AD and challenge the use of DYRK1A inhibitors in peripheral tissues as treatment. These measures will be useful for diagnosis purposes.

Plasma DYRK1A as a novel risk factor for Alzheimer's disease.

To determine whether apparent involvement of DYRK1A in Alzheimer's disease (AD) pathology makes it a candidate plasma biomarker for diagnosis, we developed a method to quantify plasma DYRK1A by immunoblot in transgenic mouse models having different gene dosages of Dyrk1a, and, consequently, different relative protein expression. Then, we measured plasma DYRK1A levels in 26 patients with biologically confirmed AD and 25 controls (negative amyloid imaging available on 13). DYRK1A was detected in transgenic mouse brain and plasma samples, and relative levels of DYRK1A correlated with the gene copy number. In plasma from AD patients, DYRK1A levels were significantly lower compared with controls (P<0.0001). Results were similar when we compared AD patients with the subgroup of controls confirmed by negative amyloid imaging. In a subgroup of patients with early AD (CDR=0.5), lower DYRK1A expression was confirmed. In contrast, no difference was found in levels of DYRK1B, the closest relative of DYRK1A, between AD patients and controls. Further, AD patients exhibited a positive correlation between plasma DYRK1A levels and cerebrospinal fluid tau and phosphorylated-tau proteins, but no correlation with amyloid-ß42 levels and Pittsburgh compound B cortical binding. DYRK1A levels detected in lymphoblastoid cell lines from AD patients were also lower when compared with cells from age-matched controls. These findings suggest that reduced DYRK1A expression might be a novel plasma risk factor for AD.

Hypercholesterolaemia, signs of islet microangiopathy and altered angiogenesis precede onset of type 2 diabetes in the Goto-Kakizaki (GK) rat.

AIMS/HYPOTHESIS: The adult non-obese Goto-Kakizaki (GK) rat model of type 2 diabetes, particularly females, carries in addition to hyperglycaemia a genetic predisposition towards dyslipidaemia, including hypercholesterolaemia. As cholesterol-induced atherosclerosis may be programmed in utero, we looked for signs of perinatal lipid alterations and islet microangiopathy. We hypothesise that such alterations contribute towards defective pancreas/islet vascularisation that might, in turn, lead to decreased beta cell mass. Accordingly, we also evaluated islet inflammation and endothelial activation in both prediabetic and diabetic animals. METHODS: Blood, liver and pancreas were collected from embryonic day (E)21 fetuses, 7-day-old prediabetic neonates and 2.5-month-old diabetic GK rats and Wistar controls for analysis/quantification of: (1) systemic variables, particularly lipids; (2) cholesterol-linked hepatic enzyme mRNA expression and/or activity; (3) pancreas (fetuses) or collagenase-isolated islet (neonates/adults) gene expression using Oligo GEArray microarrays targeted at rat endothelium, cardiovascular disease biomarkers and angiogenesis, and/or RT-PCR; and (4) pancreas endothelial immunochemistry: nestin (fetuses) or von Willebrand factor (neonates). RESULTS: Systemic and hepatic cholesterol anomalies already exist in GK fetuses and neonates. Hyperglycaemic GK fetuses exhibit a similar percentage decrease in total pancreas and islet vascularisation and beta cell mass. Normoglycaemic GK neonates show systemic inflammation, signs of islet pre-microangiopathy, disturbed angiogenesis, collapsed vascularisation and altered pancreas development. Concomitantly, GK neonates exhibit elevated defence mechanisms. CONCLUSIONS/INTERPRETATION: These data suggest an autoinflammatory disease, triggered by in utero programming of cholesterol-induced islet microangiopathy interacting with chronic hyperglycaemia in GK rats. During the perinatal period, GK rats show also a marked deficient islet vascularisation in conjunction with decreased beta cell mass.

Homocysteine threshold value based on cystathionine beta synthase and paraoxonase 1 activities in mice.

BACKGROUND: Hyperhomocysteinaemia is a metabolic disorder associated with the development of premature atherosclerosis. Among the determinants which predispose to premature thromboembolic and atherothrombotic events, serum activity of paraoxonase 1, mainly synthesized in the liver, has been shown to be a predictor of cardiovascular disease and to be negatively correlated with serum homocysteine levels in human. Even though treatments of hyperhomocysteinaemic patients ongoing cardiovascular complications are commonly used, it still remains unclear above which homocysteine level a preventive therapy should be started. MATERIALS AND METHODS: In order to establish a threshold of plasma homocysteine concentration we have analyzed the hepatic cystathionine beta synthase and paraoxonase 1 activities in a moderate to intermediate murine model of hyperhomocysteinaemia. Using wild type and heterozygous cystathionine beta synthase deficient mice fed a methionine enriched diet or a control diet, we first studied the link between cystathionine beta synthase and paraoxonase 1 activities and plasma homocysteine concentration. RESULTS: Among the animals used in this study, we observed a negative correlation between plasma homocysteine level and cystathionine beta synthase activity (rho=-0.52, P=0.0008) or paraoxonase 1 activity (rho=-0.49, P=0.002). Starting from these results, a homocysteine cut-off value of 15 microm has been found for both cystathionine beta synthase (P=0.0003) and paraoxonase 1 (P=0.0007) activities. CONCLUSIONS: Our results suggest that both cystathionine beta synthase and paraoxonase 1 activities are significantly decreased in mice with a plasma homocysteine value greater than 15 microm. In an attempt to set up preventive treatment for cardiovascular disease our results indicate that treatments should be started from 15 microm of plasma homocysteine.

Noninvasive treatment of uterine fibroids: early Mayo Clinic experience with magnetic resonance imaging-guided focused ultrasound.

Uterine fibroids often cause symptoms of pelvic pain, pressure, and bleeding. Traditional therapies have included medical (eg, hormonal therapy) and surgical (eg, myomectomy, hysterectomy) options. Recently, uterine artery embolization was added to the treatment armamentarium. We describe an exciting new non-invasive treatment option using focused ultrasound with magnetic resonance imaging and summarize the early experience at the Mayo Clinic in Rochester, Minn, during the initial research studies of this new technology.

Regulation of extracellular signal-regulated kinase by homocysteine in hippocampus.

In several neurological disorders including hyperhomocysteinemia, homocysteine (Hcy) accumulates in the brain, and acts as a potent neurotoxin. However, the molecular mechanisms induced by increased levels of Hcy in brain are not well understood. Here we show an activation of the extracellular signal-regulated kinases (ERK1 and ERK2) and the downstream nuclear targets Elk-1 and calcium/cAMP response element binding protein, in the hippocampus of cystathionine beta synthase deficient mice, a murine model of hyperhomocysteinemia. An ex vivo model of hippocampal slices allowed us to reproduce Hcy -induced ERK activation and to unravel the mechanisms responsible of this activation. Of interest, N-methyl-d-aspartate (NMDA), non-NMDA and metabotropic glutamate receptor antagonists all blocked Hcy -induced ERK activation. Moreover, the ERK activation was blocked in the presence of Na+-channel blocker tetrodotoxin, indicating the existence of a trans-synaptic activity in ERK activation by Hcy in hippocampal slices. The effects of Hcy on ERK cascade activation were also dependent on calcium influx, CaMK-II, PKC as well as PKA activation. Thus, altogether these data support a role of Hcy on ERK activation, via complex mechanisms, starting with a control of glutamate release, which in turn activates ionotropic and metabotropic receptor subtypes and produces increases in intracellular calcium levels.

Oct-1 is involved in the transcriptional repression of the von willebrand factor gene promoter.

The negative regulation of transcription of the human von Willebrand factor (vWF) gene was investigated in human umbilical vein endothelial cells (HUVECs) and HeLa cells. A fragment spanning -89 to +244 nucleotides (nt), containing the first exon, is active in HUVECs only but not in HeLa cells. The activity of this promoter is sharply reduced by mutagenesis of the GATA binding site at +221. Extension of the upstream sequences from nt -89 to -142 and to -496 results in progressive reduction of the activity of the -89 to +244 promoter identifying a negative regulatory element between nt -142 and -89. A factor present in nuclear extracts from endothelial and nonendothelial cells binds to an AT-rich sequence located between nt -133 and -125. Mutagenesis of the AT-rich sequence interferes with nuclear protein binding and restores the activity of the -142 to +244 fragment to the level of the -89 to +244 promoter. Binding of the nuclear protein to the vWF AT-rich sequence in mobility shift assays is inhibited by competition with a consensus Oct-1 binding site and with a silencer octamer-like sequence from the vascular cell adhesion molecule-1 (VCAM-1) promoter. Subsequent supershift experiments identified Oct-1 as the transcription factor that binds to vWF and VCAM-1 silencer elements. These results indicate that Oct-1 acts as a transcriptional repressor of promoters of genes expressed in endothelial cells.

Functional characterization of bovine von Willebrand factor gene promoter in bovine endothelial cells demonstrates species-specific properties.

Von Willebrand factor (vWF), a protein necessary for platelet adhesion and thrombus formation, is specifically synthesized in endothelial cells and in platelet precursors (megakaryocytes). We previously demonstrated that the sequences localized either in the 5'-flanking region or in the first exon of human (hu) vWF gene (vWF), which regulate the cell-specific transcription, are not conserved in the bovine counterpart. In order to look for cis-acting elements involved in the endothelial expression of bovine (bo) vWF, fragments including 113 base pairs (bp) of a sequence 5'-flanking the transcription start point (tsp, +1) and various deletions of the first 233 bp exon were linked in plasmids to the bacterial chloramphenicol (Cm) acetyltransferase gene (cat). These constructs were analyzed by transient transfection in calf pulmonary artery endothelial (CPAE), human epithelial (HeLa) from cervix and green monkey fibroblasts from kidney (COS) cells. The longest fragment, containing 229 bp of the first exon, was the most active, with identical cat expression in the three cell types. The CAT activity was equivalent to that measured by transfection of the same cells with the basal promoter (from bp -89 to +19) of hu vWF. Addition of upstream bo vWF sequences from bp -113 to -1362 resulted in progressive reduction of the activity of the -113/+229 fragment. The upstream negative regulatory domains between -1362 and -278 also repressed the heterologous thymidine kinase (tk) promoter in CPAE and HeLa cells. Comparison of results with those previously obtained by transfection of hu vWF promoter in bovine endothelial cells demonstrates that the cis-acting elements do not behave identically in bo vWF promoter. In particular, positive tissue-specific elements able to overcome the negative regulation in endothelial cells could not be found in bo vWF between bp -1362 and +229.

Primary structure of the propeptide and factor VIII-binding domain of bovine von Willebrand factor.

A 2811 base-pair cDNA, encoding the amino-terminal part of the bovine pre-pro-von Willebrand factor, was characterized and sequenced. The deduced amino acid sequence shares significant homology with the human von Willebrand antigen II and the amino-terminal part of the factor VIII-binding domain of von Willebrand factor. In contrast to human, there is no RGD motif in the bovine von Willebrand antigen II. High levels of Cys, characteristic of D domains, are also found in bovine and the Cys position is markedly conserved between the two species.

Ets transcription factors bind and transactivate the core promoter of the von Willebrand factor gene.

von Willebrand factor (vWF) gene expression is restricted to endothelial cells and megakaryocytes. Previous results demonstrated that basal transcription of the human vWF gene is mediated through a promoter located between base pairs -89 and +19 (cap site: +1) which is functional in endothelial and non endothelial cells. Two DNA repeats TTTCCTTT correlating with inverted consensus binding sites for the Ets family of transcription factors are present in the -56/-36 sequence. In order to analyse whether these DNA elements are involved in transcription, human umbilical vein endothelial cells (HUVEC), bovine calf pulmonary endothelial cell line (CPAE), HeLa and COS cells were transfected with constructs containing deletions of the -89/+19 fragment, linked to the chloramphenicol acetyl transferase (CAT) reporter gene. The -60/+19 region exhibits significant promoter activity in HUVEC and CPAE cells only. The -42/+19 fragment is not active. Mutations of the -60/+19 promoter fragment in the 5' (-56/-49) Ets binding site abolish transcription in endothelial cells whereas mutations in the 3' (-43/-36) site does not. The -60/-33 fragment forms three complexes with proteins from HUVEC nuclear extracts in electrophoretic mobility shift assay which are dependent on the presence of the 5' Ets binding site. Binding of recombinant Ets-1 protein to the -60/-33 fragment gives a complex which also depends on the 5' site. The -60/+19 vWF gene core promoter is transactivated in HeLa cells by cotransfecting with Ets-1 or Erg (Ets-related gene) expression plasmids. In contrast to the wild type construct, transcription of the 5' site mutants is not increased by these expressed proteins. The results indicate that the promoter activity of the -60/+19 region of the vWF gene depends on transcription factors of the Ets family of which several members like Ets-1, Ets-2 and Erg are expressed in endothelium. Cotransfection of Ets-1 and Erg expression plasmids is sufficient to induce the -60/+19 vWF promoter activity in HeLa cells.

Comparison of the 5'-flanking sequences of the human and bovine von Willebrand factor-encoding genes reveals alternation of highly homologous domains with species-specific Alu-type repeats.

von Willebrand factor (vWF), a multimeric glycoprotein important for hemostasis, is specifically synthesized in endothelial cells and in platelet precursors (megakaryocytes). Recent studies from two laboratories, including ours, were published regarding the cell-specific transcription of reporter genes controlled by the human (hu) vWF promoter in transfected bovine (bo) endothelial cells and cells of non-endothelial origins. In order to verify that the regulatory domains previously characterized in the 5' region of hu vWF are also present in bo vWF, we have sequenced 1.9 kb upstream from the cap site, plus five exons. The comparison of human and bovine exons two to five shows homology of 83% at the nucleotide (nt) level and 78% at the deduced amino-acid sequence level. The bovine and human exons one, which are non-coding and span 233 and 250 bp, respectively, are only 64% homologous. In the first exon, potentially involved in endothelial-cell-specific transcription, the binding site for factor Sp1 is present in bo vWF, whereas the GATA sequence is replaced by a GACA sequence. The sequence corresponding to the human basal promoter, located between nt -89 and +19, is well conserved with 82% homology. However, the human TAATTA sequence (at nt -32) considered to be a TATA box, is replaced by TCATTA, and the CCAAT element at nt -18 is replaced by CCTGT. Among domains involved in transcription, the negative regulatory domain located 5' from the core promoter is highly conserved. The bovine sequence upstream from the first intron can be aligned with the human sequence up to nt -656 which is located in a polymorphic poly(GT)18-26 sequence. At this site, the bovine DNA contains an insertion of 523 bp which corresponds to a bovine Alu-type art2 repeat of 331 bp flanked by bovine microsatellites. The art2 sequence is an Alu-type repeat in artiodactyls with at least 100,000 copies in the bovine genome. Upstream from this insertion, 368 bp of the bovine sequence can be aligned with the human counterpart up to a 9-bp element which flanks an human Alu repeat which is absent from the bovine DNA. Upstream of the human Alu insertion and a duplicate of the 9-bp element, the two sequences are again homologous.

Energy specificity of rock climbing and aerobic capacity in competitive sport rock climbers.

Over the past few years, competitive rock climbing has experienced increased popularity world wide. In 1989, the first six-event World Cup competition was held with all events contested on artificial modular walls. The aim of this study was to determine the extent to which oxidative metabolism is utilized in competitive rock climbing with regard to the climber's maximal O2 consumption (VO2max). VO2max--was measured with two direct triangular protocols: the first from running ("running" VO2max) and the second from pull offs performed with arms and before arms ("pulling" VO2). Moreover, VO2 was also before measured during two competitive climbing routes difficulty quantified 7b on the European numerical scale ranging from 5 to 9. However these routes had different profiles: route 1 was more complex from the informational aspect, holds being smaller and more difficult to see even though the second route was presumed harder from the physical point of view, the holds being bigger but the profile being steeper. The first and the second route involved only 45.6% and 37.7% of the "running" VO2max but 111.6% and 92.3% of the "pulling" VO2max. Heart rates (HR) were equal to 176 bpm and 159 bpm i.e. 85.5% and 77% of maximal HR respectively. Blood lactate collected three minutes after the end of the two ascents were 5.7 mmol.1(-1) and 4.3 mmol.1(-1). The paired "t" test indicated no significant differences in heart rates for the two exercises condition i.e. climbing route. These results suggest that the competitive rock climbing elicit particularly arms since heart rate is high for a relatively low value of VO2.(ABSTRACT TRUNCATED AT 250 WORDS)