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Sanna Loppi Paula Korhonen Maria Bouvy‐Liivrand Simone Caligola Tiia A. Turunen Mikko P. Turunen Ana Hernandez de Sande Natalia Koosowska Flavia Scoyni Anna Rosell Teresa García‐Berrocoso Sighild Lemarchant Hiramani Dhungana Joan Montaner Jari Koistinaho Katja M. Kanninen Minna U. Kaikkonen Rosalba Giugno Merja Heinniemi Tarja Malm 《Aging cell》2021,20(1)
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Anne Mayeur Célia Duclos Axel Honoré Maxime Gauberti Laurent Drouot Jean-Claude do Rego Nicolas Bon-Mardion Laetitia Jean Eric Vérin Evelyne Emery Sighild Lemarchant Denis Vivien Olivier Boyer Jean-Paul Marie Nicolas Guérout 《PloS one》2013,8(4)
Spinal cord injury (SCI) induces a permanent disability in patients. To this day no curative treatment can be proposed to restore lost functions. Therefore, extensive experimental studies have been conducted to induce recovery after SCI. One of the most promising therapies is based on the use of olfactory ensheathing cells (OECs). OECs can be obtained from either the olfactory bulbs (OB-OECs) or from olfactory mucosa (OM-OECs), involving a less invasive approach for autotransplantation. However the vast majority of experimental transplantations have been focusing on OB-OECs although the OM represents a more accessible source of OECs. Importantly, the ability of OM-OECs in comparison to OB-OECs to induce spinal cord recovery in the same lesion paradigm has never been described. We here present data using a multiparametric approach, based on electrophysiological, behavioral, histological and magnetic resonance imaging experiments on the repair potential of OB-OECs and OM-OECs from either primary or purified cultures after a severe model of SCI. Our data demonstrate that transplantation of OECs obtained from OB or OM induces electrophysiological and functional recovery, reduces astrocyte reactivity and glial scar formation and improves axonal regrowth. We also show that the purification step is essential for OM-OECs while not required for OB-OECs. Altogether, our study strongly indicates that transplantation of OECs from OM represents the best benefit/risk ratio according to the safety of access of OM and the results induced by transplantations of OM-OECs. Indeed, purified OM-OECs in addition to induce recovery can integrate and survive up to 60 days into the spinal cord. Therefore, our results provide strong support for these cells as a viable therapy for SCI. 相似文献
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Degradation of insulin in vitro by liver and epididymal adipose tissue from obese–hyperglycaemic mice 下载免费PDF全文
Sighild Westman 《The Biochemical journal》1968,106(2):543-547
The insulin-degrading activity of liver supernatants and epididymal adipose-tissue homogenates from genetically obese–hyperglycaemic mice (ob ob) and their lean litter mates was studied by measurement of radioactive trichloroacetic acid-soluble degradation products of the insulin molecule. Optimum assay conditions for the decomposition of the hormone were devised. The properties of the degrading activity suggested the presence of enzymic insulin destruction in both the liver and epididymal adipose tissue. There was no difference in insulin degradation in liver samples from obese and lean mice when the results were related to the protein content of the supernatants. The epididymal adipose-tissue homogenates from obese mice displayed about eightfold higher degrading activity per unit of protein than did homogenates from lean animals. The physiological significance of this finding is discussed in the light of the increased fat depots, hyperphagia, raised serum insulin concentrations and increased insulin tolerance previously recorded in this strain of mice. 相似文献
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