Your search keyword '"Hilal Unal Gulsuner"' showing total 3 results

1. Mitochondrial serine protease HTRA2 p.G399S in a kindred with essential tremor and Parkinson disease

Author

Ayse B. Tekinay, Haluk Topaloglu, Cenk Akbostanci, Onur Emre Onat, Hilal Unal Gulsuner, Tayfun Ozcelik, Okan Dogu, Tom Walsh, Bulent Elibol, Tulay Kansu, Suleyman Gulsuner, Ming K. Lee, Hashem Shahin, Mary Claire King, Fatma Nazli Mercan, and Çocuk Sağlığı ve Hastalıkları

Subjects

genomic DNA, Movement disorders, sequence analysis, Disease, Neurodegenerative disease, mouse mutant, middle aged, population dynamics, mitochondrion, DNA sequencing, Kinetic tremor, motoneuron, Exome sequencing, Genetics, child, clinical article, HtrA2 gene, education.field_of_study, Multidisciplinary, Essential tremor, adult, allele, Postural tremor, Biological Sciences, enzyme activity, homozygote, Parkinson disease, Science & Technology - Other Topics, medicine.symptom, onset age, medicine.medical_specialty, serine proteinase Omi, animal experiment, Population, gene frequency, Biology, Article, pedigree analysis, Internal medicine, medicine, controlled study, human, Allele, essential tremor, gene, education, mouse, nonhuman, animal model, missense mutation, medicine.disease, heterozygote, nervous system diseases, relative, Endocrinology, Gene identification, Mutation, homozygosity, Mitochondrial dysfunction, exome

Abstract

Cataloged from PDF version of article. Essential tremor is one of the most frequent movement disorders of humans and can be associated with substantial disability. Some but not all persons with essential tremor develop signs of Parkinson disease, and the relationship between the conditions has not been clear. In a six-generation consanguineous Turkish kindred with both essential tremor and Parkinson disease, we carried out whole exome sequencing and pedigree analysis, identifying HTRA2 p.G399S as the allele likely responsible for both conditions. Essential tremor was present in persons either heterozygous or homozygous for this allele. Homozygosity was associated with earlier age at onset of tremor (P < 0.0001), more severe postural tremor (P < 0.0001), and more severe kinetic tremor (P = 0.0019). Homozygotes, but not heterozygotes, developed Parkinson signs in the middle age. Among population controls from the same Anatolian region as the family, frequency of HTRA2 p.G399S was 0.0027, slightly lower than other populations. HTRA2 encodes a mitochondrial serine protease. Loss of function of HtrA2 was previously shown to lead to parkinsonian features in motor neuron degeneration (mnd2) mice. HTRA2 p. G399S was previously shown to lead to mitochondrial dysfunction, altered mitochondrial morphology, and decreased protease activity, but epidemiologic studies of an association between HTRA2 and Parkinson disease yielded conflicting results. Our results suggest that in some families, HTRA2 p.G399S is responsible for hereditary essential tremor and that homozygotes for this allele develop Parkinson disease. This hypothesis has implications for understanding the pathogenesis of essential tremor and its relationship to Parkinson disease. © 2014, National Academy of Sciences. All rights reserved.

Published

2014

2. Selective adsorption of L1210 leukemia cells/human leukocytes on micropatterned surfaces prepared from polystyrene/polypropylene-polyethylene blends

Author

Ayse B. Tekinay, Nevin Atalay Gengec, H. Yildirim Erbil, Hilal Unal Gulsuner, Unal, Hilal Unal, and Tekinay, Ayse Begum

Subjects

polyethylene, Polymers, wettability, Diseases, Selective adsorption, polyethylene polypropylene copolymer, surface free energy, Contact angle, chemistry.chemical_compound, Colloid and Surface Chemistry, Selective cell adhesion, Leukocytes, Micropatterning, Micropatterned surface, contact angle, Cells, Cultured, chemistry.chemical_classification, Leukemia, article, Surfaces and Interfaces, General Medicine, Polymer, Phase-separation process, unclassified drug, polyvinyl alcohol, priority journal, Polyethylene, polymerization, microscopy, Micro patterning, Wetting, leukocyte, Biotechnology, ethylene vinyl acetate copolymer, Materials science, surface property, leukemia L 1210, Surface Properties, Cells, Commercial polymers, polystyrene, cell selection, Polypropylenes, Dip-coating, Adsorption, L1210 leukemia cells, Cell Line, Tumor, Polymer chemistry, Cell Adhesion, Humans, human, Physical and Theoretical Chemistry, cell viability, Adsorption performance, copolymer, human cell, Blending, Surface energy, chemistry, Chemical engineering, adsorption, Polystyrenes, Polystyrene, Leukemia cells, cell structure

Abstract

The objective of this study is to prepare polymeric surfaces which will adsorb L1210 leukemia cells selectively more than that of healthy human leukocytes in order to develop new treatment options for people with leukemia. Chemically heterogeneous and micropatterned surfaces were formed on round glass slides by dip coating with accompanying phase-separation process where only commercial polymers were used. Surface properties were determined by using optical microscopy, 3D profilometry, SEM and measuring contact angles. Polymer, solvent/nonsolvent types, blend composition and temperature were found to be effective in controlling the dimensions of surface microislands. MTT tests were applied for cell viability performance of these surfaces. Polystyrene/polyethylene-polypropylene blend surfaces were found to show considerable positive selectivity to L1210 leukemia cells where L1210/healthy leukocytes adsorption ratio approached to 9-fold in vitro. Effects of wettability, surface free energy, microisland size geometry on the adsorption performances of L1210/leukocytes pairs are discussed. © 2013 Elsevier B.V.

Published

2014

3. Bone-Like Mineral Nucleating Peptide Nanofibers Induce Differentiation Of Human Mesenchymal Stem Cells Into Mature Osteoblasts

Author

Hilal Unal Gulsuner, Ayse B. Tekinay, Ozlem Sahin Balcik, Samet Kocabey, Mustafa O. Guler, Hakan Ceylan, Ceylan, Hakan, Kocabey, Samet, Gulsuner, Hilal Unal, Güler, Mustafa O., and Tekinay, Ayse B.

Subjects

Polymers and Plastics, cell migration, Nanofibers, cell maturation, Biocompatible Materials, Stem cells, Mineralized interface, Mineralization (biology), Extracellular matrix, Human mesenchymal stem cells, Osteogenesis, Osteogenic differentiation, oligopeptide, mesenchymal stroma cell, Materials Chemistry, Peptide sequence, Osteoinductive properties, mesenchymal stem cell, Extracellular Matrix Proteins, Mesenchymal Stromal Cells, Chemistry, adult, scleroprotein, biomaterial, article, Osteoblast, Cell Differentiation, Extracellular matrix protein, Mineralogy, peptide, Cell biology, unclassified drug, enzyme activity, Mussel adhesive proteins, mussel adhesive protein, medicine.anatomical_structure, female, priority journal, bone development, peptide nanofiber, tissue engineering, osteoblast, Female, Stem cell, alkaline phosphatase, Oligopeptides, transcription factor RUNX2, Adult, in vitro study, Cell Survival, extracellular matrix, osteocyte, bone implant, Bioengineering, Biosynthesis, chemistry, Biomaterials, cell spreading, zeta potential, Calcification, Physiologic, medicine, Cell Adhesion, tumor microenvironment, Humans, controlled study, titanium, human, Bone, nanofiber, collagen type 1, cell viability, Progenitor, Cell Proliferation, Tissue, Osteoblasts, human cell, Mesenchymal stem cell, static electricity, Mesenchymal Stem Cells, Molluscs, Alkaline Phosphatase, aspartyl-glycyl-glutamyl-alanine, Nucleating peptides, amino acid sequence, bone mineralization, Nanofiber, drug effects, Immunology, cytology, Cell culture, Peptides, metabolism

Abstract

A bone implant should integrate to the tissue through a bone-like mineralized interface, which requires increased osteoblast activity at the implant-tissue boundary. Modification of the implant surface with synthetic bioinstructive cues facilitates on-site differentiation of progenitor stem cells to functional mature osteoblasts and results in subsequent mineralization. Inspired by the bioactive domains of the bone extracellular matrix proteins and the mussel adhesive proteins, we synthesized peptide nanofibers to promote bone-like mineralization on the implant surface. Nanofibers functionalized with osteoinductive collagen I derived Asp-Gly-Glu-Ala (DGEA) peptide sequence provide an advantage in initial adhesion, spreading, and early commitment to osteogenic differentiation for mesenchymal stem cells (hMSCs). In this study, we demonstrated that this early osteogenic commitment, however, does not necessarily guarantee a priority for maturation into functional osteoblasts. Similar to natural biological cascades, early commitment should be further supported with additional signals to provide a long-term effect on differentiation. Here, we showed that peptide nanofibers functionalized with Glu-Glu-Glu (EEE) sequence enhanced mineralization abilities due to osteoinductive properties for late-stage differentiation of hMSCs. Mussel-inspired functionalization not only enables robust immobilization on metal surfaces, but also improves bone-like mineralization under physiologically simulated conditions. The multifunctional osteoinductive peptide nanofiber biointerfaces presented here facilitate osseointegration for long-term clinical stability. © 2014 American Chemical Society.

Published

2014