Olga Scudiero

New insight into adiponectin role in obesity and obesity-related diseases.

Obesity is a major health problem strongly increasing the risk for various severe related complications such as metabolic syndrome, cardiovascular diseases, respiratory disorders, diabetic retinopathy, and cancer. Adipose tissue is an endocrine organ that produces biologically active molecules defined “adipocytokines,” protein hormones with pleiotropic functions involved in the regulation of energy metabolism as well as in appetite, insulin sensitivity, inflammation, atherosclerosis, cell proliferation, and so forth. In obesity, fat accumulation causes dysregulation of adipokine production that strongly contributes to the onset of obesity-related diseases. Several advances have been made in the treatment and prevention of obesity but current medical therapies are often unsuccessful even in compliant patients. Among the adipokines, adiponectin shows protective activity in various processes such as energy metabolism, inflammation, and cell proliferation. In this review, we will focus on the current knowledge regarding the protective properties of adiponectin and its receptors, AdipoRs (“adiponectin system”), on metabolic complications in obesity and obesity-related diseases. Adiponectin, exhibiting antihyperglycemic, antiatherogenic, and anti-inflammatory properties, could have important clinical benefits in terms of development of therapies for the prevention and/or for the treatment of obesity and obesity-related diseases.

Novel Synthetic, Salt-Resistant Analogs of Human Beta-Defensins 1 and 3 Endowed with Enhanced Antimicrobial Activity

ABSTRACT Human beta-defensins (hBDs) are antimicrobial peptides of human innate immunity. The antibacterial activities of hBDs 1, 2, and 4 but not the activity of hBD3 are impaired by high salt levels. We have designed and synthesized seven novel hBD analogs, constituted by different domains of hBD1 (which is constitutively expressed in humans) and of hBD3 (which is induced by microorganisms and inflammatory factors in humans), that would maintain and potentially increase the wild-type antimicrobial activities and be salt resistant. We have compared the antibacterial, antiviral, and chemotactic activities of the analogs with those of hBD1 and hBD3. We show that the hBD1 internal region and the hBD3 C-terminal region are critical for antibacterial activity also at high salt concentrations, whereas deletion of the N-terminal region of hBD3 results in an increase in antibacterial activity. All analogs inhibited herpes simplex virus; antiviral activity was enhanced by the hBD1 internal region and the hBD3 C-terminal region. Wild-type and analog peptides were chemotactic for granulocytes and monocytes, irrespective of the salt concentrations. These new peptides may have therapeutic potential.

Adiponectin affects lung epithelial A549 cell viability counteracting TNFa and IL-1ß toxicity through AdipoR1

Adiponectin (Acrp30) exerts protective functions on metabolic and cellular processes as energy metabolism, cell proliferation and differentiation by two widely expressed receptors, AdipoR1 and AdipoR2. To date, the biological role of Acrp30 in lung has not been completely assessed but altered levels of Acrp30 and modulated expression of both AdipoRs have been related to establishment and progression of chronic obstructive pulmonary disease (COPD) and lung cancer. Here, we investigated the effects of Acrp30 on A549, a human alveolar epithelial cell line, showing how, in a time and dose-dependent manner, it decreases cell viability and increases apoptosis through ERK1/2 and AKT. Furthermore, we examined the effects of Acrp30 on A549 cells exposed to TNFα and/or IL-1ß, two potent lung inflammatory cytokines. We showed that Acrp30, in dose- and time-dependent manner, reduces cytotoxic effects of TNFα and/or IL-1ß improving cell viability and decreasing apoptosis. In addition, Acrp30 inhibits NF-κB nuclear trans-activation and induces the expression of the anti-inflammatory IL-10 cytokine without modifying that of pro-inflammatory IL-6, IL-8, and MCP-1 molecules via ERK1/2 and AKT. Finally, specifically silencing AdipoR1 or AdipoR2, we observed that NF-κB inhibition is mainly mediated by AdipoR1. Taken together, our data provides novel evidence for a direct effect of Acrp30 on the proliferation and inflammation status of A549 cells strongly supporting the hypothesis for a protective role of Acrp30 in lung. Further studies are needed to fully elucidate the Acrp30 lung effects in vivo but our results confirm this adipokine as a promising therapeutic target in lung diseases.

Adiponectin oligomerization state and adiponectin receptors airway expression in chronic obstructive pulmonary disease

Adiponectin (Acrp30) shows several beneficial properties and circulates as different oligomers. The role of Acrp30 in lung is not fully clear, but a link with chronic obstructive pulmonary disease (COPD) has been highlighted. In this study, we analyzed the anthropometrical and biochemical features and evaluated total Acrp30 levels of a COPD cohort without metabolic complications compared to healthy controls. In addition, being the oligomerization state critical for its biological activities, we characterized the pattern of Acrp30 circulating oligomers focusing on the high molecular weight (HMW) oligomers to verify whether it correlates to COPD. Finally, we investigated AdipoR1 and AdipoR2 expression in lung from COPD. Interestingly, we found for the first time that the oligomerization state of Acrp30 is altered in COPD; particularly, we observed that the higher levels of Acrp30 are associated with a significant and specific increase of HMW. In addition, we demonstrated the presence of AdipoRs with a lower expression of AdipoR2 compared to AdipoR1. In conclusion, we demonstrated that in COPD, the higher levels of Acrp30 are associated with the significantly increase of HMW representing the most biologically active forms. The important role of Acrp30 in pathophysiological conditions of lung is supported also by the modulation of AdipoRs with the down regulation of AdipoR2. The low expression of AdipoR2 could suggest a specific role of this receptor, mainly implicated in Acrp30 effects on inflammation and oxidative stress. Thus, total Acrp30, HMW and its receptors could be considered critical targets to improve diagnostic and therapeutic strategies for lung diseases.

Adiponectin: an attractive marker for metabolic disorders in Chronic Obstructive Pulmonary Disease (COPD).

Chronic Obstructive Pulmonary Disease (COPD) is a chronic inflammatory lung disease which may be complicated by development of co-morbidities including metabolic disorders. Metabolic disorders commonly associated with this disease contribute to lung function impairment and mortality. Systemic inflammation appears to be a major factor linking COPD to metabolic alterations. Adipose tissue seems to interfere with systemic inflammation in COPD patients by producing a large number of proteins, known as “adipokines”, involved in various processes such as metabolism, immunity and inflammation. There is evidence that adiponectin is an important modulator of inflammatory processes implicated in airway pathophysiology. Increased serum levels of adiponectin and expression of its receptors on lung tissues of COPD patients have recently highlighted the importance of the adiponectin pathway in this disease. Further, in vitro studies have demonstrated an anti-inflammatory activity for this adipokine at the level of lung epithelium. This review focuses on mechanisms by which adiponectin is implicated in linking COPD with metabolic disorders.

Chimeric Beta-Defensin Analogs, Including the Novel 3NI Analog, Display Salt-Resistant Antimicrobial Activity and Lack Toxicity in Human Epithelial Cell Lines

ABSTRACT Human beta-defensins (hBDs) are crucial peptides for the innate immune response and are thus prime candidates as therapeutic agents directed against infective diseases. Based on the properties of wild-type hBD1 and hBD3 and of previously synthesized analogs (1C, 3I, and 3N), we have designed a new analog, 3NI, and investigated its potential as an antimicrobial drug. Specifically, we evaluated the antimicrobial activities of 3NI versus those of hBD1, hBD3, 1C, 3I, and 3N. Our results show that 3NI exerted greater antibacterial activity against Pseudomonas aeruginosa, Escherichia coli, and Enterococcus faecalis than did hBD1 and hBD3, even with elevated salt concentrations. Moreover, its antiviral activity against herpes simplex virus 1 was greater than that of hBD1 and similar to that of hBD3. Subsequently, we investigated the cytotoxic effects of all peptides in three human epithelial carcinoma cell lines: A549 from lung, CaCo-2 from colon, and Capan-1 from pancreas. None of the analogs significantly reduced cell viability versus wild-type hBD1 and hBD3. They did not induce genotoxicity or cause an increase in the number of apoptotic cells. Using confocal microscopy, we also investigated the localization of the peptides during their incubation with epithelial cells and found that they were distributed on the cell surface, from which they were internalized. Finally, we show that hBD1 and hBD3 are characterized by high resistance to serum degradation. In conclusion, the new analog 3NI seems to be a promising anti-infective agent, particularly given its high salt resistance—a feature that is relevant in diseases such as cystic fibrosis.

Early pregnancy loss in celiac women: The role of genetic markers of thrombophilia

BACKGROUND Adverse pregnancy outcomes are more frequent in celiac than in non-celiac women. AIMS To investigate a possible role of genetic prothrombotic variants in early pregnancy loss of celiac women. METHODS Thirty-nine celiac women who had experienced early pregnancy losses (at least two losses within the first 3 months of pregnancy), and 72 celiac women with a history of one or more normal pregnancies and no pregnancy loss (controls) entered the study, at the moment of diagnosis for celiac disease. A clinical history was obtained from each woman. DNA from leukocytes was tested for: factor V Leiden (mutation G1691A), factor V R2 (H1299R), factor II (G20210A), methylenetetrahydrofolate reductase (MTHFR) (C677T and A1298C), beta-fibrinogen (-455 G>A), PAI-1 alleles 4G/5G, factor XIII (V34L), and HPA-1 (L33P). RESULTS Age at diagnosis was significantly higher (p=0.002) in the celiac women with pregnancy losses than in controls. Of the gene variants studied, the allelic frequency of 4G variant of PAI-1, and the frequency of mutant genotypes were significantly more frequent in the group of celiac women with early pregnancy loss (p=0.00003 and 0.028, respectively). Surprisingly, the beta-fibrinogen -455 G>A genotype distribution (but not the allelic frequency of the variant allele) significantly differed between the two groups, since variant genotypes were more frequent in the control group (p=0.009). CONCLUSION The 4G variant of the PAI-I gene may predispose to miscarriage a subset of celiac women; these data should be verified on larger populations.

Adiponectin in Asthma: Implications for Phenotyping

Asthma is a heterogeneous inflammatory airway disease, which exhibits multiple phenotypes, mainly defined by a combination of different clinical features. Asthma phenotypes include age at onset, smoking status, exacerbations frequency, and co-existence of obesity. Links between specific biological pathways and phenotypes are emerging. The genetic background together with detectable biomarkers could more accurately identify asthma phenotypes consistent with clinical-physiological characteristics and response to therapies. Several cross-sectional studies indicate a strict correlation between adipose tissue, obesity, and asthma suggesting that obesity is not only a risk factor for asthma but also a predictor of poor prognosis. Despite the strong clinical correlation between obesity and asthma, the underlying biological pathways have not been extensively investigated. Recently, a pivotal role for adiponectin has been recognized in physio-pathological conditions of lung. Adiponectin is expressed as a 247 residues long protein and secreted as oligomers of low, medium and high molecular weight. The larger oligomers seem to have a more pronounced insulinsensitizing, anti-atherogenic, and anti-inflammatory effects. Interestingly, the three receptors AdipoR1, AdipoR2, and Tcadherin mediating adiponectin activity are expressed on lung cells mediating adiponectin beneficial effects. Recently, different studies demonstrated the involvement of adiponectin in asthma since its levels and the expression of AdipoR1, AdipoR2 and T-cadherin are modulated in asthma patients and in asthma mouse models. In the present study, we review the literature reporting adiponectin impact on expression of specific clinical asthma phenotypes.

An ancestral host defence peptide within human β-defensin 3 recapitulates the antibacterial and antiviral activity of the full-length molecule.

Host defence peptides (HDPs) are critical components of innate immunity. Despite their diversity, they share common features including a structural signature, designated “γ-core motif”. We reasoned that for each HDPs evolved from an ancestral γ-core, the latter should be the evolutionary starting point of the molecule, i.e. it should represent a structural scaffold for the modular construction of the full-length molecule, and possess biological properties. We explored the γ-core of human β-defensin 3 (HBD3) and found that it: (a) is the folding nucleus of HBD3; (b) folds rapidly and is stable in human serum; (c) displays antibacterial activity; (d) binds to CD98, which mediates HBD3 internalization in eukaryotic cells; (e) exerts antiviral activity against human immunodeficiency virus and herpes simplex virus; and (f) is not toxic to human cells. These results demonstrate that the γ-core within HBD3 is the ancestral core of the full-length molecule and is a viable HDP per se, since it is endowed with the most important biological features of HBD3. Notably, the small, stable scaffold of the HBD3 γ-core can be exploited to design disease-specific antimicrobial agents.

Congenital and acquired thrombotic risk factors in lymphoma patients bearing upper extremities deep venous thrombosis: a preliminary report

BackgroundCongenital thrombotic risk factors, oncological diseases and its therapies have been related to an increased occurrence of upper extremities deep venous thrombosis (UEDVT).Patients and methodsWe studied seven patients bearing lymphoma (one Hodgkins and six non-Hodgkins) who developed UEDVT, one at diagnosis and six during chemotherapy (two of these six cases had implantation of a central venous catheter and four received Growth Colony Stimulating Factors in addition to chemotherapy). Patients were screened for: factor V G1691A (Leiden), prothrombin G20210A, methylene tetrahydrofolate reductase (MTHFR) C677T mutations and antithrombin III, proteins C and S plasma activity.ResultsAll patients were wild-type homozygotes for G20210A. One was heterozygote for factor V G1691A, the other 6 were wild-type homozygotes. Three of the 7 patients were homozygotes and 2 heterozygotes for the MTHFR mutation; the remaining 2 were wild-type homozygotes. Clotting inhibitor levels were normal in all patients.ConclusionsUEDVT in patients bearing haematological malignancies can occur irrespective of congenital thrombophilic alterations. However, in a subgroup of patients UEDVT could also depend on congenital thrombophilic alterations. A screening for inherited thrombophilia can identify high risk patients that could be specifically treated to prevent thrombotic complications.