Türkan Sarioğlu scite author profile

We performed genome-wide homozygosity mapping and mapped a novel myopathic phenotype to chromosomal region 1q25 in a consanguineous family with three affected individuals manifesting proximal and distal weakness and atrophy, rigid spine and contractures of the proximal and distal interphalangeal hand joints. Additionally, cardiomyopathy and respiratory involvement were noted. DNA sequencing of torsinA-interacting protein 1 (TOR1AIP1) gene encoding lamina-associated polypeptide 1B (LAP1B), showed a homozygous c.186delG mutation that causes a frameshift resulting in a premature stop codon (p.E62fsTer25). We observed that expression of LAP1B was absent in the patient skeletal muscle fibres. Ultrastructural examination showed intact sarcomeric organization but alterations of the nuclear envelope including nuclear fragmentation, chromatin bleb formation and naked chromatin. LAP1B is a type-2 integral membrane protein localized in the inner nuclear membrane that binds to both A-and B-type lamins, and is involved in the regulation of torsinA ATPase. Interestingly, luminal domain-like LAP1 (LULL1)-an endoplasmic reticulum-localized partner of torsinA-was overexpressed in the patient's muscle in the absence of LAP1B. Therefore, the findings suggest that LAP1 and LULL1 might have a compensatory effect on each other. This study expands the spectrum of genes associated with nuclear envelopathies and highlights the critical function for LAP1B in striated muscle.

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Anti-Inflammatory Effects of Melatonin in Rats with Induced Type 2 Diabetes Mellitus

Yapışlar

Hacıosmanoğlu

Sarioğlu

et al. 2022

Life

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Introduction: Insulin resistance is associated with a pro-inflammatory state increasing the risk for complications in patients with type 2 diabetes mellitus (T2DM). In addition to its chronobiotic effects, the pineal hormone melatonin is known to exert anti-inflammatory and antioxidant effects. Melatonin was also suggested to affect insulin secretion. The aim of this study was therefore to investigate the effect of melatonin on inflammation in diabetic rats and to study the possible involvement of the melatonin receptor, MT2. Materials and Methods: Male Sprague Dawley rats were randomly divided into four experimental groups (n = 10 per group): (1) control, (2) streptozotocin/nicotinamide induced diabetes type 2 (T2DM), (3) T2DM treated with melatonin (500 µg/kg/day), and (4) T2DM treated with melatonin (500 µg/kg/day for 6 weeks) and the selective MT2 receptor antagonist luzindole (0.25 g/kg/day for 6 weeks). Blood samples were taken for biochemical parameters and various tissue samples (liver, adipose tissue, brain) were removed for immunohistochemistry (IHC), Western blot (WB), and Q-PCR analyses, respectively. Results: Melatonin significantly reduced increased blood levels of liver transaminases (AST, ALT), blood urea nitrogen (BUN), triglyceride, very low-density lipoprotein (VLDL), and cholesterol in diabetic rats with luzindole treatment partly reversing this effect regarding the lipids. Furthermore, the liver and adipose tissues of T2DM rats treated with melatonin showed lower expression of the inflammatory markers IL-1β, IL-6, TNF-α, and NF-κB as compared to the T2DM group without melatonin. The results also showed that the MT2 receptor is at least partly involved in the protective effects of melatonin. Conclusions: Our results suggest that melatonin exerts relevant anti-inflammatory effects on various tissues in type 2 diabetic rats.

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The melatonin MT2 receptor is involved in the anti-apoptotic effects of melatonin in rats with type 2 diabetes mellitus

et al. 2022

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The effects of retinoic acid on mmp-2 production, proliferation and ultrastructural morphology in rat uterus

Kotil

Şentürk

Sarioğlu³

et al. 2017

Experimental and Toxicologic Pathology

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The Melatonin Receptor MT2 Is Partly Involved in the Anti-Inflammatory Effects of Melatonin in Rats With Type 2 Diabetes Mellitus

Yapışlar

Hacıosmanoğlu

Sarioğlu

et al. 2021

Preprint

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Background: Insulin resistance is associated with a pro-inflammatory state increasing the risk for complications in patients with type 2 diabetes mellitus (T2DM). In addition to its chronobiotic effects, the pineal hormone melatonin is also known to exert anti-inflammatory and antioxidant effects. Furthermore, melatonin was also suggested to affect insulin secretion and melatonin levels were reported to be decreased in T2DM patients Aims: The aim of this study was therefore to investigate the effect of melatonin on inflammation in diabetic rats and to study the possible involvement of the melatonin receptor, MT2. Materials and Methods: Male Sprague Dawley rats were randomly divided into four experimental groups (n = 10 per group):1) control, 2) streptozotocin/nicotinamid induced diabetes type 2 (T2DM), 3) T2DM treated with melatonin (500 µg/kg/day), and 4) T2DM treated with melatonin (500 µg/kg/day) and the selective MT2 receptor antagonist luzindole (0.25 g/kg/day). Blood samples were taken for biochemical parameters and various tissue samples (liver, adipose tissue, brain) were removed for immunohistochemistry (IHC), western blot (WB) and Q-PCR analyses, respectively. Results: Melatonin significantly reduced increased blood levels of liver transaminases (AST, ALT) and blood urea nitrogen (BUN) in diabetic rats. Furthermore, in liver and adipose tissue of treated rats, melatonin administration resulted in considerable lower expression of the increased inflammatory markers IL-1β, IL-6, TNF-α and NF-κB, as shown by reduction in RNA and protein levels. The MT2 receptor was only partly involved in the anti-inflammatory effects of melatonin. Conclusions: Our results suggest that melatonin has relevant anti-inflammatory effects in diabetic rats. Further studies in humans could prove the potential clinical benefit of melatonin supplementation in patients with T2DM.

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