[Genes Associated with Increased Stress Sensitivity in Hypertensive ISIAH Rats].

Inherited stress-induced arterial hypertension (ISIAH) rats are characterized by increased stress reactivity of the hypothalamic-pituitary-adrenal and sympathoadrenal systems. The genetic basis of increased susceptibility to stress was studied in hypertensive ISIAH rats. Adrenal transcriptomes were sequenced in hypertensive ISIAH and normotensive WAG rats, and nine differentially expressed genes (DEGs) were found in the X-chromosome locus that was previously associated with mild emotional stress-induced increases in blood pressure and plasma corticosterone and an increased adrenal weight in ISIAH rats. An analysis of the functions performed by DEG-encoded proteins suggested the Sms (spermine synthase) gene to be the most likely candidate gene in the X-chromosome locus associated with an elevated stress susceptibility in ISIAH rats.

Generation of two iPSC lines (ICGi008-A and ICGi008-B) from skin fibroblasts of a patient with early-onset Alzheimer's disease caused by London familial APP mutation (V717I).

The induced pluripotent stem cell (iPSC) lines ICGi008-A and ICGi008-B were generated from dermal fibroblasts using episomal vectors expressing pluripotency factors. Dermal fibroblasts were obtained from a 55 year old male Сaucasian familial Alzheimer's disease (AD) patient carrying heterozygous V717I mutation in the APP gene. The generated iPSC lines maintained the original APP genotype, expressed pluripotency markers, exhibited a normal karyotype and retained the ability to differentiate into cell types of the three germ layers. The iPSC lines will be useful for the study of the AD molecular and cellular mechanisms and drug screening.

[Epigenetic Mechanisms of Blood-Pressure Regulation].

The role of epigenetic mechanisms involved in blood-pressure regulation has been reviewed. It is known that some periods in early pre- and postnatal ontogenesis are very sensitive to some environmental and endogenous influences. These periods are characterized as highly vulnerable to the formation of a complex of epigenetic changes that may determine the trajectory of the further formation of physiological systems involved in the blood-pressure regulation. Early life influences on these systems may predispose an individual to the development of hypertensive disease in further life. In some cases, the transmission of epigenetic changes to the next generations may resolve the contradiction between the high heritability of arterial hypertensive disease and the low total contribution of polymorphic DNA variants in the population variability of blood pressure values.

[Increase in the concentration of sEH protein in renal medulla of ISIAH rats with inherited stress-induced arterial hypertension].

The concentration of soluble epoxide hydrolase (sEH) protein was studied in renal medulla of adult rats from hypertensive ISIAH strain and normotensive WAG strain. The sEH is a key enzyme in metabolism of epoxyeicosatrienoic acids capable of activating endothelial NO-synthase and nitrogen oxide formation, and therefore being vasodilators. An increase in the sEH protein concentration (that we found) allows one to assume that the oxidative stress is increased in the renal medulla of hypertensive rats, and the bloodflow is decreased.

Strain-Specific Single-Nucleotide Polymorphisms in Hypertensive ISIAH Rats.

Single-nucleotide polymorphisms (SNPs) in the coding and regulatory regions of genes can affect transcription rate and translation efficiency, modify protein function, and, in some cases, cause the development of diseases. In the current study, the RNA-Seq approach has been used to discover strain-specific SNPs in ISIAH (inherited stress-induced arterial hypertension) rats, which are known as a model of stress-induced arterial hypertension. The comparison of the ISIAH SNPs with genome sequencing data available for another 42 rat strains and substrains, 11 of them known as hypertensive, showed a considerable genetic distance between the genotypes of ISIAH and all other rat strains and substrains. The study revealed 1849 novel SNPs specific for ISIAH rats and 158 SNPs present only in the genotypes of hypertensive rats. Amino acid substitutions with possible deleterious effect on protein function were detected. Several of them were found in the genes associated with hypertension. These SNPs may be considered as novel molecular targets for further studies aimed at assessing their potential in the therapy of stress-induced hypertension.

[Expression of Catechol-O-Methyltransferase (Comt), Mineralocorticoid Receptor (Mlr), and Epithelial Sodium Channel (ENaC) Genes in Kidneys of Hypertensive ISIAH Rats at Rest and during Response to Stress].

Emotional stress plays a significant role in the processes of the development of arterial hypertension, especially in the presence of genetic predisposition. The origin and maintenance of hypertensive status during stress development can be activated by the sympathetic nervous system. An increase in sympathetic stimulation can, in turn, result in a change in the functions of kidneys, which provide fluid and electrolyte balance of the organism. A comparative study of the mRNA expression level of catechol-o-methyltransferase (Comt), mineralocorticoid receptor (Mlr), and ß-subunit of epithelial sodium channel (ß-ENaC) genes was conducted on the kidneys of hypertensive ISIAH rats and normotensive WAG rats at rest and after the effect of emotional stress. The discovered changes in the expression level of the selected genes confirm their involvement in increased sympathetic stimulation of the kidney, along with changes in the function of kidney regulation of fluid and electrolyte balance, which is an important factor of the development of sustained hypertension in the ISIAH rats strain.

[Differentially expressed genes in the locus associated with relative kidney weight and resting blood pressure in hypertensive rats of the ISIAH strain].

The comparative full-genome sequencing of transcriptomes of the renal cortex and medulla from hypertensive ISIAH rats and normotensive WAG rats revealed the differential expression of genes in the locus of chromosome 11 associated to the traits of resting blood pressure and relative kidney weight. Six differentially expressed genes (Kcne1, Rcan1, Mx1, Mx2, Tmprss2, and RGD1559516) were identified in the renal cortex, and three genes (Rcan1, Mx2, and Tmprss2) were identified in the renal medulla. An analysis of the functions of these genes pointed at the Rcan1 gene as the most relevant candidate gene associated with both the traits of resting blood pressure and relative kidney weight in ISIAH rats. The elevation of the transcription levels of the Mx1 and Mx2 genes in hypertensive ISIAH rats may represent an adaptation that contributes to the alleviation of inflammatory processes in the kidneys.

[Genetic loci for spleen weight and blood pressure in Isiah rats with inherited stress-induced arterial hypertension].

Recently, the important role of the spleen function in hypertension development was demonstrated. In this study, the genetic control of absolute and relative spleen weight was investigated to reveal the genetic loci common for spleen traits and for arterial blood pressure at rest and under the emotional stress conditions in the ISIAH rats with inherited stress-induced arterial hypertension. The search for genetic loci for absolute and relative spleen weight was performed on 6-month old F2 (ISIAH x WAG) hybrid males derived from a cross of hypertensive ISIAH and normotensive WAG rats. One significant QTL mapped on chromosome 1 and 5 suggestive loci were found for relative spleen weight. Four suggestive loci were detected for absolute spleen weight. All detected loci were novel. The significant QTL on chromosome 1 was common for relative spleen weight and arterial blood pressure at rest and under the emotional stress conditions in ISIAH rats. The results suggest that the manifestation ofthe stress-sensitive arterial hypertension in ISIAH rats may be related to the changes in genetic control of the spleen function.

[Enhanced expression of EPHX2 gene in the kidney of the hypertensive ISIAH rats].

Epoxyeicosatrienoic acids (EETs) have antihypertensive properties and play a part in the maintenance of renal microvascular function. EETs mediate vasodilation of rat preglomerular microvessels and activate ion channels. Ephx2 is coding for the soluble epoxide hydrolase (sEH) which catalyze the degradation of EETs. Renal cortex and renal medulla were tested for Ephx2 mRNA level in hypertensive ISIAH and normotensive WAG rats at rest and emotional stress conditions. The microarray analysis and real-time PCR were used to assess the transcriptional activity of Ephx2. Enhanced transcriptional activity of Ephx2 in both renal structures of ISIAH rats was found at rest and stress conditions. The emotional stress caused elevation of Ephx2 mRNA level in renal medulla of ISIAH rats and opposite response--a decrease in Ephx2 expression in the renal medulla and cortex of WAG rats.The results suggest Ephx2 participation in the control of the vascular tone changes in kidney promoting the hypertensive state in the ISIAH rats.

[Expression of the genes Egf and Egfr in renal tissue of the hypertensive rats of the ISIAH strain].

Activation of the epidermal growth factor receptors (EGFR) plays an important role in the regulation of the kidney blood circulation and ion transport. The mRNA content of the epidermal growth factor (Egf) and its receptor (Egfr) genes were studied in the cortical and medullar parts of the kidney of rats with stress sensitive arterial hypertension (ISIAH strain) and normotensive WAG rats. There were no differences in the Egf expression between the rat strains at rest and under emotional stress in both the cortical and medullary kidney zones. As for Egfr transcription, it was significantly higher in the cortical and medullary parts of the ISIAH kidneys at rest as compared to the control WAG. Emotional stress induced no significant changes in the Egfr transcription in the cortical kidney parts of both rat strains. But prominent enhancement of Egfr transcription after emotional stress was observed in the kidney medulla of the WAG rats: it became the same as in the ISIAH rats at rest. It was suggested that the stress hormones might be involved in the regulation of Egfr transcription, and this connection between stress and Egfr gene activity might play a significant role in the kidney involvement in pathogenesis of stress sensitive arterial hypertension.

Norepinephrine content in the hypothalamus and medulla oblongata of ISIAH rats is regulated by several genetic loci.

Five genetic loci regulating epinephrine content in rat hypothalamus and two loci in the medulla oblongata were identified using polymorphic microsatellite DNA markers. Allele polymorphism of these loci determines the differences between norepinephrine levels in brain compartments of hypertensive ISIAH and normotensive WAG rats. The interactions between the detected epinephrine-regulating loci are additive.

The characteristics of motor activity in ISIAH rats in an open field test are controlled by genes on chromosomes 2 and 16.

Quantitative Trait Locus (QTL) analysis was used to identify the loci of polygenic characteristics in a study of the genetic determination of the behavior of rats with inherited stress-induced arterial hypertension (ISIAH rats). Analysis was performed using males of two populations of F2 hybrids (ISIAH x WAG) of different ages: 3-4 (n = 106) and six months (n = 130). Chromosomes 2 and 16 in the young population of F2 rats showed significant associations between two characteristics of behavior in ISIAH rats and genetic loci: a) the rats' motor activity at the periphery of the open field area with loci in the regions of markers D2Rat157-D2Rat88 (LOD score 4.83; p = 0.000058) and D16Rat32 (LOD score 3.71; p = 0.00023). Together, these two loci accounted for 42.9% of the trait variability; b) the rats' motor activity during the first minute of the open field test and loci in the region of the marker D16Rat58 (LOD score 3.78; p = 0.00028). Results obtained by QTL analysis demonstrated a relationship between the genetic control of these traits and the animals' age.

Neuroendocrine profiling in inherited stress-induced arterial hypertension rat strain with stress-sensitive arterial hypertension.

The functions of the hypothalamic adrenal cortical and sympathetic adrenal medullary systems were studied in rats with inherited stress-induced arterial hypertension (ISIAH strain). A characteristic feature of the ISIAH strain is an increase in arterial blood pressure measured both under basal conditions and after restraint stress in particular. In the control ISIAH rats, the basal plasma ACTH concentration was slightly lower than that in the normotensive Wistar albino Glaxo (WAG) rats, and no differences were found in plasma corticosterone. However, the 0.5-h restraint stress produced higher activation of the adrenal cortex in the ISIAH rats. Gluco- and mineralocorticoid responses to the blood volume reduction stresses and ACTH and corticosterone responses to social stress were stronger in the ISIAH than in the control WAG rats. An increase in epinephrine content in adrenals in the basal state and enhanced response of the sympathetic adrenal medullary system to handling stress were observed in the ISIAH rats. Restraint stress produced significantly higher expression of genes encoding corticotropin-releasing hormone-mRNA in hypothalamus and proopiomelanocortin-mRNA in pituitary in the ISIAH than in the WAG rats. Restraint stress produced a decrease in glucocorticoid receptor (GR) gene expression (GR-mRNA) in hippocampus in the ISIAH, but not in the WAG rats. A persistent increase in tyrosine hydroxylase-mRNA in adrenals of the ISIAH rats was found. It is concluded that the ISIAH rat strain is an appropriate model of stress-sensitive hypertension with the predominant involvement of the hypothalamic adrenal cortical and sympathetic adrenal medullary systems in its pathogenesis.

[The ISIAH rat locomotion in the open field test is under control of the genes on chromosome 2 and chromosome 16].

The QTL analysis was performed in order to identify the genetic loci that contribute to the behavior in the open field tests in the ISIAH rat strain with inherited stress-induced arterial hypertension. Two F2 populations of 3-4-month-old (n = 106) and 6-month-old (n = 130) male rats derived from a cross between the normotensive Wistar albino Glaxo (WAG) and hypertensive ISIAH rats were used in the search for the QTL. In 3-4-month-old rats, QTL were found: a) for the rat locomotion at the periphery of the open field in the region of D2Rat157-D2Rat88 markers (logarithm of odds (LOD) score 4.83; p= 0.000058) on Chr. 2 and in the vicinity of the D16Rat32 marker (LOD score 3.71; p = 0.00023) on Chr. 16. These two QTL describe the 42.9% of the trait variability. b) for the rat locomotion during the first minute of the open field test on Chr.16 near the D16Rat58 marker (LOD score 3.78; p = 0.00028). The results provided support for the existence of the age-dependent differences in the genetic control of the traits analyzed.

Rats with inherited stress-induced arterial hypertension (ISIAH strain) display specific quantitative trait loci for blood pressure and for body and kidney weight on chromosome 1.

1. The aim of the present study was to scan chromosome 1 in the hypertensive 'inherited stress-induced arterial hypertension' (ISIAH) rat strain for the quantitative trait loci (QTL) that control basal and stress-induced arterial blood pressure (ABP) levels and weight traits. 2. Two F(2) populations of 3-4- and 6-month-old male rats derived from a cross between the normotensive Wistar albino Glaxo (WAG) and hypertensive ISIAH rats were used in the search for the QTL. To identify the QTL for blood pressure (basal and under stress) and weight traits (bodyweight, as well as the weight of the adrenals, kidney and heart), 12 polymorphic markers covering a span of 234.6 Mb on chromosome 1 were analysed. 3. In 3-4-month-old rats, QTL were found for bodyweight in the vicinity of the D1Rat76 marker (230.6 Mb; P = 0.0019; logarithm of odds (LOD) score 3.23) and for relative kidney weight in the vicinity of the D1Rat117 marker (219.3 Mb; P = 0.000992; LOD score 3.41). No QTL for blood pressure were detected on chromosome 1 in the 3-4-month-old population. 4. In 6-month-old rats, a QTL for basal ABP in the region spanning 168.0-250.4 Mb, with two peaks around the markers D1Rat168 (204.8 Mb; P = 0.00087; LOD score 3.42) and D1Rat76 (P = 0.0006; LOD score 3.34), was described. A novel QTL was found in the D1Rat54-D1Rat168 region for stress-induced blood pressure (P = 0.0014; LOD score 3.08). 5. The results provide support for the existence of age-dependent differences in the genetic control of ABP and weight traits. Chromosome 1 was characterized by four QTL: for bodyweight and relative kidney weight in 3-4-month-old F(2) (ISIAH yen WAG) rats and basal ABP and ABP under emotional (restraint) stress conditions in 6-month-old F(2) rats. The QTL for stress-induced ABP seems to be novel and specific to the ISIAH rat strain.

[A search for genetic loci responsible for emotional stress-induced arterial hypertension in the ISIAH rats]. / Poisk geneticheskikh lokusov, otvetstvennykh za povyshenie arterial'nogo davleniia u krys linii NISAG v usloviiakh émotsional'nogo stressa.

Hypertension is a widespread human disease caused by a complex interaction of a series of the genetic factors with both each other and the environmental conditions. In this study we aimed at determining the candidate genetic loci responsible for hypertension in the ISIAH rats and studying the dynamics of the relevant genetic and physiological mechanisms in rat ontogeny. The candidate genetic loci were identified from association of the microsatellite markers linked to these loci with arterial hypertension in rat F2 hybrids exposed to stress. Two populations of F2 hybrids of different age (3-4 and 6 months) were obtained by crossing hypertensive ISIAH and normotensive WAG rats. We present the results of cosegregation analysis for the following loci: the gene for the Na+, K(+)-ATPase alpha 1 subunit isoform (Atp1a1), the endothelin-2 gene (Edn2), the low affinity nerve growth factor receptor gene (Lngfr), and a region of chromosome 10 marked with the D10Rat58 microsatellile located 3 cM away of the aldolase C gene (AldC). The results obtained allowed us to localize the genes responsible for the stress-induced arterial hypertension in the ISIAH rats to the Atp1a1 locus (P < 0.05), chromosome 2 and to the Lngfr gene locus (P < 0.05), chromosome 10. The association of hypertensive status with the Lngfr gene was found only in young ISIAH rats whereas in adult rats of this line, hypertension was associated with the Atp1a1 locus.

[Characteristics of glucocorticoid receptor gene expression in spontaneously hypertensive rat strain]. / Osobennosti ékspressii gena gliukokortikoidnogo retseptora u gipertenzivnykh krys linii NISAG.

In ISIAH rat strain with stress-sensitive form of hypertension, the expression level of glucocorticoid receptor (GR) gene has been evaluated in hippocampus, hypothalamus and pituitary under basal and 2-hr restraint stress conditions. Corticosterone (CS) level in peripheral blood was also evaluated. Normotensive WAG strain was used as a control. Under basal condition, there were no interstrain differences in GR-mRNA level in any brain region under study. However, under stress condition, ISIAH rats demonstrated a significant fall of GR-mRNA in hippocampus and increase the pituitary gland as compared to basal level. On the contrary, no differences with basal level were found in stressed WAG rats. CS concentration in blood was nearly the same in nonstressed WAG and ISIAH rats. Stress influence led to a marked increase of CS in both strains. However CS level was significantly higher in stressed ISIAH rats than in stressed WAG group.

[Function of hypothalamic-pituitary-adrenocortical system in hypertensive rats of ISIAH strain]. / Kharakteristika funktsii gipotalamo-gipofizarno-adrenokortikal'noi sistemy u gipertenzivnykh krys linii NISAG.

Functional activity of hypothalamic-pituitary-adrenocortical axis has been studied under control and restraint stress conditions in rats with inherited stress-sensitive arterial hypertension (ISIAH strain) and in normotensive WAG (Wistar Albino Glaxo) strain. The levels of hypothalamic CRH-mRNA (in control and 2 hrs stress), pituitary and plasma ACTH and plasma corticosterone (in control and after 5, 15 or 30 min of restraint stress), were evaluated. Hypothalamic CRH-mRNA level was found to be approximately the same in the control rats of both strains. In control conditions, the pituitary and plasma ACTH content in ISIAH rats was significantly lower whereas the corticosterone level in the plasma differed from each other in both strain. The restraint stress resulted in a statistically significant increase of the CRH-mRNA in ISIAH rats and not in the WAG rats. Moreover, in spite of the lower ACTH level in stressed ISIAH rats, the corticosterone blood plasma concentration in hypetensive rats was significantly higher. The data obtained confirm the idea that the stress-dependent hypertension might be related to an enhanced sensitivity of the main endocrine links involved in the stress response organization.