ICH3, a selective alpha7 nicotinic acetylcholine receptor agonist, modulates adipocyte inflammation associated with obesity.

PURPOSE: The alpha7 nicotinic acetylcholine receptor (α7nAChR), involved in the modulation of inflammation and insulin sensitivity, is downregulated in white adipose tissue (WAT) of obese patients. This study aims to test the ability of a selective synthetic α7nAChR agonist, the spirocyclic Δ2-isoxazoline derivative (R)-(-)-ICH3 (ICH3), to counteract acute inflammation and obesity-associated modifications in WAT. METHODS: We employed the LPS-septic shock murine model, human primary adipocytes and diet-induced obese (DIO) mice. Inflammatory factor expression was assessed by ELISA and quantitative real-time PCR. Flow cytometry was employed to define WAT inflammatory infiltrate. Insulin signaling was monitored by quantification of AKT phosphorylation. RESULTS: In the septic shock model, ICH3 revealed antipyretic action and reduced the surge of circulating cytokines. In vitro, ICH3 stimulation (10 µM) preserved viability of human adipocytes, decreased IL-6 mRNA (P < 0.05) and blunted LPS-induced peak of TNFα (P < 0.05) and IL-6 (P < 0.01). Chronic administration of ICH3 to DIO mice was associated with lower numbers of CD8+ T cells (P < 0.05) and to changed WAT expression of inflammatory factors (Hp, P < 0.05; CD301/MGL1, P < 0.01; Arg-1, P < 0.05). As compared to untreated, ICH3 DIO mice exhibited improved insulin signaling in the skeletal muscle (P < 0.01) mirrored by an improved response to glucose load (ipGTT: P < 0.05 at 120 min). CONCLUSIONS: We proved that ICH3 is an anti-inflammatory drug, able to reduce inflammatory cytokines in human adipocytes and to blunt the effects of obesity on WAT inflammatory profile, on glucose tolerance and on tissue insulin sensitivity.

Adipose tissue microbiota in humans: an open issue.

BACKGROUND: A specific 'adipose tissue' microbiota has been recently identified in mice and hypothesized in humans. The purpose of this study was to verify the presence of microbiota of human whole adipose tissue and isolated adipocytes by combining culture-dependent and independent methods. METHODS: Standard microbiological cultural techniques and 16S ribosomal RNA (16S rRNA) gene sequencing (Illumina technology) on DNA and RNA were employed to study (a) whole abdominal subcutaneous adipose tissue (SAT) and visceral adipose tissue (VAT) from 14 obese and five normal-weight subjects and (b) mature adipocytes isolated from SAT and VAT after collagenase digestion or mechanical separation. To optimize the 16S rRNA gene detection, we used different DNA extraction methods (lysis with proteinase K, proteinase K+lysozyme and microbeads) and amplification procedures (semi-quantitative standard PCR and real-time quantitative PCR). RESULTS: Microbiological cultures were negative in all analyzed samples. In enzymatically isolated adipocytes, 90% of the sequenced bacterial DNA belonged to Clostridium histolyticum, the bacterium from which the collagenase enzyme was isolated. Bacterial 16S rRNA gene was not detected from DNA and RNA of whole SAT and VAT, as well as of mechanically isolated mature adipocytes, even after blocking with a specific primer the nonspecific amplification of human mitochondrial 12S rRNA. CONCLUSIONS: Our results do not support the presence of a human adipose tissue microbiota. In addition, they emphasized the technical problems encountered when applying metagenomic studies to human tissues with very low or absent bacterial load.

Permanence of molecular features of obesity in subcutaneous adipose tissue of ex-obese subjects.

OBJECTIVE: Bariatric surgery represents a powerful tool for morbid obesity treatment. However, after stabilization of weight loss that follows surgical interventions, ex-obese patients face the problem of residual tissues removal. Actually, it is unknown whether the characteristics of this residual subcutaneous adipose tissue (SAT) are 'restored' with regard to molecular and morphological features. DESIGN: To clarify this issue, we compared the SAT gene expression profile of ex-obese patients (ExOB-SAT, mean body mass index (BMI): 27.2±1.3 kg m(-2)) with that of lean (normal weight, NW-SAT, mean BMI: 22.6±1.1 kg m(-2)), overweight (OW-SAT, BMI: 27.65±0.2 kg m(-2)) and obese patients, according to BMI classes (OB1-SAT: 30 > or = BMI < or = 34.9, OB2-SAT: 35 > or = BMI < or = 39.9, OB3-SAT: BMI > or = 40). SUBJECTS AND METHODS: A total of 58 samples of SAT were collected during surgical interventions. Gene expression levels were assessed by microarrays and significant genes were validated by RT-qPCR. Adipocyte hypertrophy, inflammatory infiltration and fibrosis were assessed by morphological techniques. RESULTS: Global gene expression in ExOB-SAT was closely related to gene expression of OB3-SAT by hierarchical clustering procedures, in spite of different BMI. Metallothioneins (MT1A and MT2A) were the key over-expressed genes in both groups. At morphologic level, adipocyte hypertrophy and inflammatory infiltration improved after weight loss in ExOB-SAT, despite a persistence of fibrosis. CONCLUSIONS: Taken together, these results demonstrate that SAT gene expression is not fully restored, even after an extensive and stable weight loss. The persistence of 'obesity molecular features' in ExOB-SAT suggests that the molecular signature of adipose tissue is not solely dependent on weight loss and may need longer time period to completely disappear.

Cross talk between plasma membrane Na(+)/Ca (2+) exchanger-1 and TRPC/Orai-containing channels: key players in arterial hypertension.

Arterial smooth muscle (ASM) Na(+)/Ca(2+) exchanger type 1 (NCX1) and TRPC/Orai-containing receptor/store-operated cation channels (ROC/SOC) are clustered with α2 Na(+) pumps in plasma membrane microdomains adjacent to the underlying junctional sarcoplasmic reticulum. This arrangement enables these transport proteins to function as integrated units to help regulate local Na(+) metabolism, Ca(2+) signaling, and arterial tone. They thus influence vascular resistance and blood pressure (BP). For instance, upregulation of NCX1 and TRPC6 has been implicated in the pathogenesis of high BP in several models of essential hypertension. The models include ouabain-induced hypertensive rats, Milan hypertensive rats, and Dahl salt-sensitive hypertensive rats, all of which exhibit elevated plasma ouabain levels. We suggest that these molecular mechanisms are key contributors to the increased vascular resistance ("whole body autoregulation") that elevates BP in essential hypertension. Enhanced expression and function of ASM NCX1 and TRPC/Orai1-containing channels in hypertension implies that these proteins are potential targets for pharmacological intervention.

The nicotinic acetylcholine receptor α7 in subcutaneous mature adipocytes: downregulation in human obesity and modulation by diet-induced weight loss.

BACKGROUND: It is known that cholinergic anti-inflammatory reflex regulates inflammation in peripheral tissues. Nicotinic acetylcholine receptors (nAChRs) are mediators of this anti-inflammatory pathway and also non-neuronal cells express functional nAChrs. A role for α7-subtype acetylcholine cholinergic receptor (α7nAChR) in insulin sensitivity improvement has already been shown in rodents both in vivo and in vitro. However, no data are available on α7nAChR expression in human adipocytes. OBJECTIVE: To investigate the expression and protein content of α7nAChR in human subcutaneous adipose tissue (SAT) and in isolated mature adipocytes. DESIGN: A total of 39 SAT biopsy specimens obtained from obese and normal-weight subjects were used to assess α7nAChR messenger RNA levels and to stimulate α7nAChR with a specific agonist and antagonist in vitro. Additional SATs from eight non-diabetic obese subjects were also studied, before and after a 3-month lifestyle intervention. RESULTS: α7nAChR expression was significantly lower in the SAT of obese subjects compared with that of normal-weight subjects. In mature adipocytes isolated from morbidly obese subjects (body mass index > 40 kg m(-2)), α7nAChR expression was 75% lower compared with adipocytes from normal-weight subjects. In adipocytes of obese subjects, α7nAChR was downregulated also at protein level. In eight non-diabetic obese subjects, a lifestyle intervention (3 months of diet and physical activity) induced a significant weight loss and an increase in α7nAChR SAT expression. In vitro stimulation of adipocytes with the specific α7nAChR agonist PNU282987 induced a significant anti-inflammatory effect. Furthermore, a similar downregulation of the inflammatory profile, associated with a significant increase in α7nAChR protein level, was observed after genistein stimulation. CONCLUSIONS: These results provide evidence that α7nAChR expression levels are significantly decreased in obese subjects, and that this receptor modulates inflammatory gene expression in human adipocytes. The upregulation of α7nAChR by genistein stimulation opens new insights for the management of low-grade inflammation linked to human obesity.

Predictors of the early impairment of renal disease in human obesity.

OBJECTIVE: The mechanisms underlying the association of the increased albumin excretion rate (AER) with adiposity have yet to be clarified. We therefore investigated (1) the predictors of AER after 3 months of lifestyle intervention in a large cohort of nondiabetic obese women and (2) the relationships between AER and the adipose tissue gene expression of adipokines linked to inflammation and insulin resistance. SUBJECTS: A total of 269 obese nondiabetic women (age 49.9+/-13.1 years, body mass index (BMI) 36.8+/-4.6 kg m(-2)) participated in this program. Measurements used were anthropometrics parameters, blood pressure, oral glucose tolerance test, lipids, creatinine, AER, homeostasis model assessment of insulin resistance (HOMA-IR) and glomerular filtration rate at baseline and after 3 months of lifestyle intervention. At baseline, in a subgroup of 34 women, subcutaneous adipose tissue biopsy was carried out for the analysis of mRNA expression levels of adiponectin, suppressor of cytokine signaling 3 (SOCS-3), tumor necrosis factor alpha (TNF-alpha), pentraxine 3 (PTX-3), angiotensinogen and angiotensin-converting enzyme, and a blood sample was also taken from this group for the measurement of circulating adiponectin, interleukin-6, TNF-alpha and PTX-3. Microalbuminuria was defined as albumin/creatinine ratio >or=3.5 mg mmol(-1). Real-time PCR was used to quantify mRNA. RESULTS: Six percent of obese women had microalbuminuria. When dividing the whole cohort into three groups according to AER changes (decrease, stability and increase), we noted that 2 h glucose, insulin and HOMA-IR significantly decreased (P<0.05 for all) only in women who had a decrease in AER, whereas BMI and waist circumference significantly decreased in all the three groups (P<0.05). At baseline, higher AER was associated to significantly higher adipose tissue mRNA expression levels of SOCS-3 and PTX-3 (P<0.05) and to higher TNF-alpha and angiotensinogen expression. CONCLUSIONS: In obese women, weight loss alone is not sufficient to induce the AER decrease that occurs only with a concomitant improvement in glucose homeostasis. The adipose tissue gene expression profile seems to favor the early renal impairment often seen in obese subjects.

Analysis of machine learning algorithms as integrative tools for validation of next generation sequencing data.

OBJECTIVE: While next generation sequencing (NGS) has become the technology of choice for clinical diagnostics, most genetic laboratories still use Sanger sequencing for orthogonal confirmation of NGS results. Previous studies have shown that when the quality of NGS data is high, most calls are indicated by Sanger sequencing, making confirmation redundant. We aimed at establishing a set of criteria that make it possible to distinguish NGS calls that need orthogonal confirmation from those that do not would significantly decrease the amount of work necessary to reach a diagnosis. MATERIALS AND METHODS: A data set of 7976 NGS calls confirmed as true or false positive by Sanger sequencing was used to train and test different machine learning (ML) approaches. By varying the size and class balance of the training dataset, we measured the performance of the different algorithms to determine the conditions under which ML is a valid approach for confirming NGS calls in a diagnostic environment. RESULTS: Our results indicate that machine learning is a valid approach to find variant calls that need more investigation, but in order to reach the high accuracy required in a clinical environment, the training data set must include enough observations and these observations must be well-balanced between true/false positive NGS calls. CONCLUSIONS: Our results show that it is possible to integrate the diagnostic NGS validation workflow with a machine learning approach to reduce the number of Sanger confirmations of high- quality NGS calls, reducing the time and costs of diagnosis.

Monoamine oxidase inhibition prevents mitochondrial dysfunction and apoptosis in myoblasts from patients with collagen VI myopathies.

Although mitochondrial dysfunction and oxidative stress have been proposed to play a crucial role in several types of muscular dystrophy (MD), whether a causal link between these two alterations exists remains an open question. We have documented that mitochondrial dysfunction through opening of the permeability transition pore plays a key role in myoblasts from patients as well as in mouse models of MD, and that oxidative stress caused by monoamine oxidases (MAO) is involved in myofiber damage. In the present study we have tested whether MAO-dependent oxidative stress is a causal determinant of mitochondrial dysfunction and apoptosis in myoblasts from patients affected by collagen VI myopathies. We find that upon incubation with hydrogen peroxide or the MAO substrate tyramine myoblasts from patients upregulate MAO-B expression and display a significant rise in reactive oxygen species (ROS) levels, with concomitant mitochondrial depolarization. MAO inhibition by pargyline significantly reduced both ROS accumulation and mitochondrial dysfunction, and normalized the increased incidence of apoptosis in myoblasts from patients. Thus, MAO-dependent oxidative stress is causally related to mitochondrial dysfunction and cell death in myoblasts from patients affected by collagen VI myopathies, and inhibition of MAO should be explored as a potential treatment for these diseases.

Expression of long pentraxin PTX3 in human adipose tissue and its relation with cardiovascular risk factors.

UNLABELLED: Pentraxin 3 (PTX3) is an acute phase protein strongly expressed by advanced atherosclerotic lesions. We investigated (a) PTX3 expression and secretion in subcutaneous adipose tissue (SAT) and omental visceral adipose tissue (VAT) obtained from 21 obese (37.4+/-8.15 yr) and 10 normal weight subjects (43.7+/-11.07 yr) and (b) the relationships of adipose PTX3 with tumour necrosis factor alpha (TNFalpha) and adiponectin expression and with cardiometabolic risk factors. Real-time PCR was used to quantify specific mRNA for PTX3, CD68 (macrophage marker), TNFalpha and adiponectin. Fresh adipose tissue was cultured and PTX3 measured in the medium. Serum insulin, glucose, HDL and LDL cholesterol, triglycerides, C-reactive protein (CRP), fibrinogen, adiponectin, TNFalpha and PTX3 were measured. PTX3 expression was similar in the two fat compartments and tended to be higher in obese than in normal weight subjects in VAT only (p=0.05). CD68 and PTX3 expressions were correlated with each other in SAT but not in VAT. After adjustment for age and sex, VAT-PTX3 expression and release were correlated with VAT-TNFalpha expression (p<0.01 for both) and with LDL/HDL ratio (p<0.01 and p<0.001). VAT-PTX3 expression was also correlated with BMI, triglycerides, CRP, fibrinogen and adiponectin (p<0.05 for all). In the multivariate analysis with VAT-PTX3 RNA levels as dependent variable, LDL/HDL ratio and fibrinogen remained independently associated with VAT-PTX3 expression (p<0.01 for both). These associations were not seen within SAT. CONCLUSIONS: Human adipose tissue expresses and releases PTX3 likely under TNFalpha control. VAT production of PTX3 seems to contribute to the mechanisms underlying the development of atherosclerosis.