John Varakis scite author profile

Our results show: a) a different expression pattern of adiponectin, visfatin, leptin, chemerin and vaspin in periaortic, pericoronary and apical epicardial adipose tissue, b) a correlation of these adipokines with either aortic or coronary atherosclerosis or both in a pattern characteristic for each adipokine and suggest that locally produced adipokines might differently affect the atherosclerotic process in different locations.

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Expression of Adiponectin and Adiponectin Receptors in Human Pituitary Gland and Brain

Psilopanagioti¹,

Papadaki²,

et al. 2008

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Background/Aims: Adiponectin and its receptors, AdipoR1 and AdipoR2, constitute integral components of energy homeostatic mechanism in peripheral tissues. Recent studies have implicated adiponectin in central neural networks regulating food intake and energy expenditure. The present study aimed at investigating the possible expression and distribution of adiponectin and its receptors in human pituitary gland, hypothalamus and different brain areas. Methods: Sections of the pituitary gland, hypothalamus and adjacent basal forebrain area, cerebrum and cerebellum from 35 autopsy cases, were examined using HE, PAS-Orange G, luxol fast blue/cresyl violet stains and single and double immunohistochemistry using adiponectin, AdipoR1, AdipoR2, choline acetyltransferase, FSH, LH, TSH, GH, ACTH and prolactin-specific antibodies. Age and BMI mean values ± SD of the autopsy cases were 56 ± 18 years and 27 ± 5 kg/m², respectively. Results: Strong adiponectin expression was observed in pituitary gland. In pars distalis (PD), adiponectin localized in GH, FSH, LH and TSH-producing cells and in pars tuberalis (PT) in FSH, LH and TSH-producing cells. Strong to moderate expression of AdipoR1 and AdipoR2 was observed in PD by the same cell types as adiponectin. No immunoreactivity for adiponectin receptors was noted in cells of PT. Intense AdipoR1 immunostaining was observed in neurons of lateral hypothalamic area and of nucleus basalis of Meynert (NBM). Conclusions: Adiponectin and its receptors expression in human pituitary might indicate the existence of a local system, modulating endocrine axes. Furthermore, the presence of AdipoR1 in hypothalamus and NBM suggests that adiponectin may participate in central neural signaling pathways controlling energy homeostasis and higher brain functions.

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ILK over‐expression in human colon cancer progression correlates with activation of β‐catenin, down‐regulation of E‐cadherin and activation of the Akt–FKHR pathway

Bravou

Klironomos

Papadaki

et al. 2005

The Journal of Pathology

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Integrin-linked kinase (ILK) has been implicated in the development and progression of several human malignancies. However, the role of ILK in human colon cancer progression is not well established, neither have its possible in vivo downstream effectors in the disease been identified. We studied, by immunohistochemistry, ILK, beta-catenin, E-cadherin, p-Akt and p-FKHR protein expression in 125 primary colon carcinomas and 45 corresponding lymph node metastases. ILK was expressed in 98.4% of the primary tumours and in 100% of metastatic lesions. The levels of ILK expression correlated strongly with tumour invasion, tumour grade and stage and were significantly higher in metastatic tumours. Activation of beta-catenin, down-regulation of E-cadherin and activation of the Akt-FKHR pathway correlated significantly with both ILK expression and tumour progression parameters. In conclusion, our results suggest that ILK may have an important role in progression of human colon cancer, possibly through in vivo regulation of beta-catenin, E-cadherin and Akt pathways. Our study also provides some evidence implicating p-FKHR in human colon carcinogenesis and ILK signalling.

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Overexpression of hedgehog pathway molecules and FOXM1 in non-small cell lung carcinomas

et al. 2009

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Chemerin and CMKLR1 expression in human arteries and periadventitial fat: a possible role for local chemerin in atherosclerosis?

Kostopoulos

Spiroglou

Varakis

et al. 2014

BMC Cardiovasc Disord

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BackgroundDepending on their anatomical location, different fat depots have a different capacity to produce bioactive peptides, called adipokines. Adipokines produced by periadventitial fat have been implicated in the pathogenesis of vascular disease, including atherosclerosis. Chemerin is an adipokine with an established role in immunity, adipose tissue function and metabolism, acting in autocrine, paracrine and endocrine manners. We investigated the protein expression of chemerin and its receptor, CMKLR1, in human aortas, coronary vessels and the respective periadventitial adipose tissue and correlated their expression with the presence of atherosclerosis.MethodsImmunohistochemistry for chemerin and CMKLR1 was performed on human aortic and coronary artery samples including the periadventitial adipose tissue. Aortic and coronary atherosclerotic lesions were assessed using the AHA classification.ResultsChemerin immunopositivity was noticed in both periadventitial fat depots, in vascular smooth muscle cells and foam cells in atherosclerotic lesions. Periadventitial fat and foam cell chemerin immunopositivity was statistically significantly correlated with the severity of atherosclerosis in both locations. CMKLR1 was expressed in vascular smooth muscle cells and foam cells in aortic and coronary vessels with atherosclerotic lesions. CMKLR1 immunostaining in foam cells was statistically significantly correlated with aortic atherosclerosis.ConclusionsOur results lend some support to a presumable role of locally produced chemerin in the progression of atherosclerotic lesions, possibly acting through its CMKLR1 receptor. Further research will elucidate the role of chemerin signaling in atherosclerosis.

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John Varakis

Adipokines in Periaortic and Epicardial Adipose Tissue: Differential Expression and Relation to Atherosclerosis

Expression of Adiponectin and Adiponectin Receptors in Human Pituitary Gland and Brain

ILK over‐expression in human colon cancer progression correlates with activation of β‐catenin, down‐regulation of E‐cadherin and activation of the Akt–FKHR pathway

Overexpression of hedgehog pathway molecules and FOXM1 in non-small cell lung carcinomas

Chemerin and CMKLR1 expression in human arteries and periadventitial fat: a possible role for local chemerin in atherosclerosis?

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