Cysteine Oxidative Dynamics Underlies Hypertension and Kidney Dysfunction Induced by Chronic Intermittent Hypoxia.

Previous data showed the lack of efficacy of an adrenoceptor antagonist to revert hypertension induced by chronic intermittent hypoxia (CIH). We hypothesized that, in addition to sympathetic activation, CIH may change the availability and dynamics of cysteine. Temporal variation in total cysteine and its fractions, free reduced, free oxidized and protein-bound (CysSSP), were measured in homogenates of kidney cortex and medulla of Wistar rats. Animals were exposed to CIH for 14, 21 and 60 days and cysteine fractions and fibronectin gene expression were assessed at these time-points. Two different phases in cysteine dynamics were identified. An early phase (14d) characterized by an increase in cysteine oxidation and CysSSP forms. Late events (>21d) were characterized by a global reduction in cysteine, minimum level of CysSSP and maximum overexpression of fibronectin in kidney cortex. In conclusion, cysteine dynamics is influenced by the duration of CIH exposure: first there is a cysteine disulfide stress-like adaptive response followed by a progressive loss of cysteine availability and a decrease in CysSSP fraction. Kidney fibrosis associated to an unbalance in cysteine dynamics might contribute to the inefficacy of available antihypertensive drugs in patients with delayed diagnosis of sleep apnea.

The impact of chronic intermittent hypoxia on hematopoiesis and the bone marrow microenvironment.

Obstructive sleep apnea (OSA) is a highly prevalent sleep-related breathing disorder which is associated with patient morbidity and an elevated risk of developing hypertension and cardiovascular diseases. There is ample evidence for the involvement of bone marrow (BM) cells in the pathophysiology of cardiovascular diseases but a connection between OSA and modulation of the BM microenvironment had not been established. Here, we studied how chronic intermittent hypoxia (CIH) affected hematopoiesis and the BM microenvironment, in a rat model of OSA. We show that CIH followed by normoxia increases the bone marrow hypoxic area, increases the number of multipotent hematopoietic progenitors (CFU assay), promotes erythropoiesis, and increases monocyte counts. In the BM microenvironment of CIH-subjected animals, the number of VE-cadherin-expressing blood vessels, particularly sinusoids, increased, accompanied by increased smooth muscle cell coverage, while vWF-positive vessels decreased. Molecularly, we investigated the expression of endothelial cell-derived genes (angiocrine factors) that could explain the cellular phenotypes. Accordingly, we observed an increase in colony-stimulating factor 1, vascular endothelium growth factor, delta-like 4, and angiopoietin-1 expression. Our data shows that CIH induces vascular remodeling in the BM microenvironment, which modulates hematopoiesis, increasing erythropoiesis, and circulating monocytes. Our study reveals for the first time the effect of CIH in hematopoiesis and suggests that hematopoietic changes may occur in OSA patients.

The Association Between Antihypertensive Medication and Blood Pressure Control in Patients with Obstructive Sleep Apnea.

Obstructive sleep apnea and hypertension are closely related diseases. The lowering effect of continuous positive airway pressure (CPAP) on blood pressure (BP) control is modest and concomitant antihypertensive therapy is still required. However, the best antihypertensive regimen for BP control in patients with OSA remains unknown. We aimed to investigate a hypothetical association between ongoing antihypertensive medication and BP control rates in patients with OSA. We conducted a prospective observational study in a cohort of 205 patients with OSA and hypertension who underwent a sleep study and 24-h ambulatory blood pressure monitoring (ABPM). Ongoing antihypertensive medication profile was recorded. Logistic regression models were used to investigate the association between antihypertensive regimen and BP control, before (n = 205) and, when applicable, after CPAP adaptation (n = 90). One hundred and fifty-five patients (155/205) were being treated with 31 different antihypertensive regimens. At baseline, the antihypertensive regimens and the number of antihypertensive drugs were not associated with BP control (p = 0.847; p = 0.991). After CPAP adaptation, a decrease in median night-time systolic and diastolic BP was observed (p = 0.001; p = 0.006). Nevertheless, the lack of association between antihypertensive regimens and the number of antihypertensive drugs and BP control remained (p = 0.864; p = 0.800). Our findings confirm that although CPAP improves nocturnal BP, this improvement is not sufficient to control blood pressure for 24 h. This study shows, for the first time, that in patients with OSA, there is no association between BP control and both the antihypertensive regimen and the number of antihypertensive drugs.

Unmasking efavirenz neurotoxicity: Time matters to the underlying mechanisms.

Efavirenz is an anti-HIV drug that presents relevant short- and long-term central nervous system adverse reactions. Its main metabolite (8-hydroxy-efavirenz) was demonstrated to be a more potent neurotoxin than efavirenz itself. This work was aimed to understand how efavirenz biotransformation to 8-hydroxy-efavirenz is related to its short- and long-term neuro-adverse reactions. To access those mechanisms, the expression and activity of Cyp2b enzymes as well as the thiolomic signature (low molecular weight thiols plus S-thiolated proteins) were longitudinally evaluated in the hepatic and brain tissues of rats exposed to efavirenz during 10 and 36days. Efavirenz and 8-hydroxy-efavirenz plasma concentrations were monitored at the same time points. Cyp2b induction had a delayed onset in liver (p<0.001), translating into increases in Cyp2b activity in liver and 8-hydroxy-efavirenz plasma concentration (p<0.001). Moreover, an increase in S-cysteinyl-glycinylated proteins (p<0.001) and in free low molecular weight thiols was also observed in liver. A distinct scenario was observed in hippocampus, which showed an underexpression of Cyp2b as well as a decrease in S-cysteinylated and S-glutathionylated proteins. Additionally, the observed changes in tissues were associated with a marked increase of S-glutathionylation in plasma. Our data suggest that the time course of efavirenz biotransformation results from different mechanisms for its short- and long-term neurotoxicity. The difference in the redox profile between liver and hippocampus might explain why, despite being mostly metabolized by the liver, this drug is neurotoxic. If translated to clinical practice, this evidence will have important implications in efavirenz short- and long-term neurotoxicity prevention and management.

Hippocampal neurogenesis response: What can we expect from two different models of hypertension?

Hypertension is associated with cerebrovascular disease, white matter lesion and cognitive deficit, both in experimental models and clinical observations. Furthermore, in non-clinical models it is shown that hippocampus is affected by hypertension and hypoxia. Herein, two distinct hypertension models were used to study neurogenic response in hippocampus. Dahl salt sensitive (DSS) rat model is a genetic based idiopathic model, while chronic intermittent hypoxia (CIH) mimics the hypertension observed in patients with obstructive sleep apnea (OSA). Both models are chronic and trigger hypertension. No macroscopic alterations based on histological analysis were found in hippocampus derived from DSS and CIH exposure rats. Nevertheless, in hippocampus derived from CIH-induced hypertensive rats, there was a decrease on neuronal population (MAP2 and NeuN positive cells) and an increase on astrocytic marker GFAP. Accordingly, a higher increase on Ki67 expressing cells was found in dentate gyrus (DG) region, suggesting an enhancement of cell proliferation, concomitantly with an increase of Nestin staining, which indicates the presence of immature neurons under differentiation. While, in hippocampus of DSS rats with or without high salt diet, there was no remarkable difference indicating potential neuronal loss, astrocytic activation or neurogenesis. Furthermore, in both models hypertension did not alter the levels of expression of the stress response enzyme heme oxygenase-1 in DG. These data indicate that intermittent hypoxia might be the key factor involved in neurogenesis modulation in hippocampus. Furthermore, two hypotheses can be explored: (i) activation of neurogenesis is a response against neuronal loss induced by hypertension and/or hypoxia or (ii) neurogenesis can be directly stimulated by hypoxia as a neuroprotective mechanism.

Efavirenz biotransformation as an up-stream event of mood changes in HIV-infected patients.

Efavirenz is a drug of choice for adults and children infected with the human immunodeficiency virus. Notably, up to 35% of patients on efavirenz suffer from mood changes. This work aimed to investigate efavirenz biotransformation into 8-hydroxy-efavirenz as an up-stream event of mood changes and to evaluate the suitability of 8-hydroxy-efavirenz biomonitoring for the minimization of these manifestations. A case-control study with two age-matched groups of HIV-infected male patients was performed in a group without adverse central nervous system complaints (28 patients) and a group presenting mood changes (14 patients). The plasma concentration of non-conjugated 8-hydroxy-efavirenz was higher in patients with mood changes (p=0.020). An association between efavirenz and 8-hydroxy-efavirenz-glucuronide was found (Spearman r=0.414, p<0.010), only within therapeutic efavirenz concentrations. This correlation was not observed in patients with toxic (>4mg/L) plasma concentrations of the parent drug. We conclude that metabolism to 8-hydroxy-efavirenz is associated with efavirenz-related mood changes, which suggests that the concentration of this metabolite is a suitable parameter for therapeutic drug monitoring aimed at controlling these manifestations. Moreover, our data suggest that 8-hydroxy-efavirenz is able to cross the blood-brain barrier and that the peripheral detoxification of 8-hydroxy-efavirenz by glucuronidation may be inhibited by toxic efavirenz concentrations.

Neck circumference and body mass index as independent predictors of hypertension misclassification in patients suspected of having obstructive sleep apnea.

OBJECTIVE(S): Twenty-four-hour ambulatory blood pressure monitoring (ABPM) seems to be the most accurate way of diagnosing hypertension in patients with obstructive sleep apnea (OSA). However, this diagnostic tool is expensive and time-consuming and is therefore not used routinely. We aimed to find baseline predictors that enable the identification of patients who misclassify themselves as nonhypertensive to optimize the use of ABPM. METHODS: Clinically suspected OSA patients (n=369) were enrolled and underwent overnight polysomnography and 24-h ABPM, and completed a data collection form. Anthropometric measurements were assessed. Generalized additive models, the minimum P-value approach, and logistic regression models were used for data analysis. Results were considered significant when α is equal to 0.05. RESULTS: One hundred and twenty-two patients who were not on antihypertensive medication did not report hypertension, but according to ABPM data, 43.4% (n=53) of them had misclassified themselves as nonhypertensive. These patients had a significantly higher apnea-hypopnea index (P<0.001), ABPM variables (P<0.001), BMI (P=0.002), and neck circumference (NC) (P=0.002) than nonhypertensive patients (n=69). BMI and NC emerged as independent predictors of hypertension misclassification. The cut-off points that best discriminated the two groups of patients were 27 kg/m and 39 cm for BMI and NC, respectively. The resulting binary BMI and NC remained independent predictors of hypertension misclassification in the final model (odds ratio: 3.2, P=0.010; odds ratio: 2.4, P=0.038). CONCLUSION: Our findings emphasize the importance of ABPM for the diagnosis of hypertension in patients suspected of having OSA with a BMI and NC above 27 kg/m and 39 cm, respectively.

Voluntary Oral Administration of Losartan in Rats.

Gavage is a widely performed technique for daily dosing in laboratory rodents. Although effective, gavage comprises a sequence of potentially stressful procedures for laboratory animals that may introduce bias into experimental results, especially when the drugs to be tested interfere with stress-dependent parameters. We aimed to test vehicles suitable for drug delivery by voluntary ingestion in rats. Specifically, Male Wistar rats (age, 2 to 3 mo) were used to test nut paste (NUT), peanut butter (PB), and sugar paste (SUG) as vehicles for long-term voluntary oral administration of losartan, an angiotensin II receptor blocker. Vehicles were administered for 28 d without drug to assess effects on the glucose level and serum lipid profile. Losartan was mixed with vehicles and either offered to the rats or administered by gavage (14 d) for subsequent quantification of losartan plasma levels by HPLC. After a 2-d acclimation period, all rats voluntarily ate the vehicles, either alone or mixed with losartan. NUT administration reduced blood glucose levels. The SUG group had higher concentrations of losartan than did the gavage group, without changes in lipid and glucose profiles. Our results showed that NUT, PB, and SUG all are viable for daily single-dose voluntary ingestion of losartan and that SUG was the best alternative overall. Drug bioavailability was not reduced after voluntary ingestion, suggesting that this method is highly effective for chronic oral administration of losartan to laboratory rodents.

Efficacy of carvedilol in reversing hypertension induced by chronic intermittent hypoxia in rats.

Animal models of chronic intermittent hypoxia (CIH) mimic the hypertension observed in patients with obstructive sleep apnoea. Antihypertensive drugs were applied to these animal models to address the physiological mechanism but not to revert established hypertension. We aimed to investigate the efficacy of carvedilol (CVDL), an unselective beta-blocker that exhibits intrinsic anti-α1-adrenergic and antioxidant activities in a rat model of CIH-induced hypertension. The variability of CVDL enantiomers in plasma concentrations was also evaluated. Wistar rats with indwelling blood pressure telemeters were exposed during their sleep period to 5.6 CIH cycles/h, 10.5 h/day, for 60 days. CVDL was administered by gavage beginning on Day 36 of the CIH period and was continued for 25 days. R-(+)-CVDL and S-(-)-CVDL plasma concentrations were monitored by HPLC. CIH significantly increased diastolic and systolic blood pressure by 25.7 and 21.6 mm Hg respectively, while no effect was observed on the heart rate (HR). CVDL administration at 10, 30 and 50 mg/kg/day promoted a significant reduction in HR but did not affect arterial pressure. The S/(R+S) ratio of CVDL enantiomers was lower in rats exposed to CIH. The blockade of the sympathetic nervous system together with the putative pleiotropic effects of CVDL did not alter the CIH-induced hypertension. Although CIH induced pharmacokinetic changes in the R/(R+S) ratio, these effects do not appear to be responsible for the inability of CVDL to reverse this particular type of hypertension.

The efficacy of antihypertensive drugs in chronic intermittent hypoxia conditions.

Sleep apnea/hypopnea disorders include centrally originated diseases and obstructive sleep apnea (OSA). This last condition is renowned as a frequent secondary cause of hypertension (HT). The mechanisms involved in the pathogenesis of HT can be summarized in relation to two main pathways: sympathetic nervous system stimulation mediated mainly by activation of carotid body (CB) chemoreflexes and/or asphyxia, and, by no means the least important, the systemic effects of chronic intermittent hypoxia (CIH). The use of animal models has revealed that CIH is the critical stimulus underlying sympathetic activity and hypertension, and that this effect requires the presence of functional arterial chemoreceptors, which are hyperactive in CIH. These models of CIH mimic the HT observed in humans and allow the study of CIH independently without the mechanical obstruction component. The effect of continuous positive airway pressure (CPAP), the gold standard treatment for OSA patients, to reduce blood pressure seems to be modest and concomitant antihypertensive therapy is still required. We focus this review on the efficacy of pharmacological interventions to revert HT associated with CIH conditions in both animal models and humans. First, we explore the experimental animal models, developed to mimic HT related to CIH, which have been used to investigate the effect of antihypertensive drugs (AHDs). Second, we review what is known about drug efficacy to reverse HT induced by CIH in animals. Moreover, findings in humans with OSA are cited to demonstrate the lack of strong evidence for the establishment of a first-line antihypertensive regimen for these patients. Indeed, specific therapeutic guidelines for the pharmacological treatment of HT in these patients are still lacking. Finally, we discuss the future perspectives concerning the non-pharmacological and pharmacological management of this particular type of HT.

Carotid body, insulin, and metabolic diseases: unraveling the links.

The carotid bodies (CB) are peripheral chemoreceptors that sense changes in arterial blood O2, CO2, and pH levels. Hypoxia, hypercapnia, and acidosis activate the CB, which respond by increasing the action potential frequency in their sensory nerve, the carotid sinus nerve (CSN). CSN activity is integrated in the brain stem to induce a panoply of cardiorespiratory reflexes aimed, primarily, to normalize the altered blood gases, via hyperventilation, and to regulate blood pressure and cardiac performance, via sympathetic nervous system (SNS) activation. Besides its role in the cardiorespiratory control the CB has been proposed as a metabolic sensor implicated in the control of energy homeostasis and, more recently, in the regulation of whole body insulin sensitivity. Hypercaloric diets cause CB overactivation in rats, which seems to be at the origin of the development of insulin resistance and hypertension, core features of metabolic syndrome and type 2 diabetes. Consistent with this notion, CB sensory denervation prevents metabolic and hemodynamic alterations in hypercaloric feed animal. Obstructive sleep apnea (OSA) is another chronic disorder characterized by increased CB activity and intimately related with several metabolic and cardiovascular abnormalities. In this manuscript we review in a concise manner the putative pathways linking CB chemoreceptors deregulation with the pathogenesis of insulin resistance and arterial hypertension. Also, the link between chronic intermittent hypoxia (CIH) and insulin resistance is discussed. Then, a final section is devoted to debate strategies to reduce CB activity and its use for prevention and therapeutics of metabolic diseases with an emphasis on new exciting research in the modulation of bioelectronic signals, likely to be central in the future.