Micelli Silvia, Meleleo Daniela, Picciarelli Vittorio, Stoico Maria G, Gallucci Enrico
Dipartimento Farmaco-Biologico, Dipartimento Interateneo di Fisica, Università degli Studi di Bari, I-70126 Bari, Italy.
Biophys J. 2004 Aug;87(2):1065-75. doi: 10.1529/biophysj.103.037200.
Human Calcitonin (hCt) is a peptide hormone which has a regulatory action in calcium-phosphorus metabolism. It is currently used as a therapeutic tool in bone pathologies such as osteoporosis and Paget's disease. However, due to its amphiphilic property tends to form a gelatinous solution in water which consists of fibrils that limits its therapeutic use. Here we show that sodium dodecyl sulfate (SDS), an anionic detergent able to induce and stabilize alpha-helices in polypeptides, at a monomeric concentration ranging between 0.26 mM-5 pM (all concentrations are below the CMC), increases the rate and number of hCt channel formation in planar lipid membranes, at both high and low hCt concentrations, with a maximum increase at a molecular hCt/SDS ratio of 1000:1. This effect could be interpreted as a counteraction to the fibrillation process of hCt molecules by removing molecules available for aggregation from the fluid; furthermore, this action, independently of channel formation in the cell membrane, could improve the peptide-receptor interaction. The action of SDS could be attributable to the strength of the sulfate negative charge and the hydrophobic chain; in fact, a similar effect was obtained with lauryl sarcosine and not with a neutral detergent such as n-dodecyl-beta-D-maltoside. The very low molecular ratio between SDS and peptide is suggestive of a possible catalytic action of SDS that could induce alpha-helices, the appropriate structures for interacting with the membrane. Moreover, in the experimental conditions investigated, the addition of SDS does not modify the membrane's electrical properties and most of the channel properties. This finding may contribute to the knowledge of environment-folding diseases due to protein and peptides.
人降钙素(hCt)是一种在钙磷代谢中具有调节作用的肽类激素。目前它被用作治疗骨质疏松症和佩吉特氏病等骨病的治疗工具。然而,由于其两亲性,它在水中倾向于形成由纤维组成的凝胶状溶液,这限制了其治疗用途。在这里我们表明,十二烷基硫酸钠(SDS),一种能够诱导和稳定多肽中α-螺旋的阴离子洗涤剂,在单体浓度介于0.26 mM至5 pM之间(所有浓度均低于临界胶束浓度)时,在高hCt浓度和低hCt浓度下,均能提高平面脂质膜中hCt通道形成的速率和数量,在分子hCt/SDS比为1000:1时增加幅度最大。这种效应可以解释为通过从流体中去除可用于聚集的分子来对抗hCt分子的纤维化过程;此外,这种作用,独立于细胞膜中的通道形成,可以改善肽-受体相互作用。SDS的作用可能归因于硫酸根负电荷和疏水链的强度;事实上,月桂酰肌氨酸也能获得类似的效果,而中性洗涤剂如正十二烷基-β-D-麦芽糖苷则不能。SDS与肽之间非常低的分子比表明SDS可能具有催化作用,能够诱导α-螺旋,这是与膜相互作用的合适结构。此外,在所研究的实验条件下,添加SDS不会改变膜的电学性质和大多数通道性质。这一发现可能有助于了解由蛋白质和肽引起的环境折叠疾病。