Biological Networks in Ischemic Tolerance - Rethinking the Approach to Clinical Conditioning

被引：28

作者：

Anrather J. ^{[1
]}

Hallenbeck J.M. ^{[2
]}

机构：

[1] Brain and Mind Research Institute, Weill Cornell Medical College, 407 East 61 Street, RR303, NY, NY

[2] Stroke Branch, NINDS, NIH, 10 Center Drive MSC 1401, Building 10/ 5B02, Bethesda, MD

来源：

Translational Stroke Research | 2013年 / 4卷 / 1期

基金：

美国国家卫生研究院;

关键词：

Cerebral ischemia; Humoral factors; Ischemic tolerance; Neural circuits; Postconditioning; Preconditioning; Remote preconditioning; Stroke; Stroke therapy;

D O I：

10.1007/s12975-012-0244-z

中图分类号：

学科分类号：

摘要：

The adaptive response (conditioning) to environmental stressors evokes evolutionarily conserved programs in uni- and multicellular organisms that result in increased fitness and resistance to stressor induced injury. Although the concept of conditioning has been around for a while, its translation into clinical therapies targeting neurovascular diseases has only recently begun. The slow pace of clinical adoption might be partially explained by our poor understanding of underpinning mechanisms and of the complex responses of the organism to the stressor. At the 2nd Translational Preconditioning Meeting, participants engaged in an intense discussion addressing whether the time has come to more aggressively implement clinical conditioning protocols in the treatment of cerebrovascular diseases or whether it would be better to wait until preclinical data would help to minimize clinical empiricism. This review addresses the complex involvement of biological networks in establishing ischemic tolerance at the organism level using two clinically promising conditioning modalities, namely remote ischemic preconditioning, and per- or post-conditioning, as examples. © 2013 Springer Science+Business Media New York.

引用

页码：114 / 129

页数：15

共 174 条

[61]

Gourine, A., Mastitskaya, S., Gilbey, M.P., Ackland, G.L., Gourine, A.V., Remote preconditioning reflex (2010) European Society of Cardiology Congress Reports, pp. 1-14

[62]

Redington, K.L., Disenhouse, T., Strantzas, S.C., Gladstone, R., Wei, C., Tropak, M.B., Remote cardioprotection by direct peripheral nerve stimulation and topical capsaicin is mediated by circulating humoral factors (2012) Basic Res Cardiol, 107, p. 241

[63]

Shimizu, M., Tropak, M., Diaz, R.J., Suto, F., Surendra, H., Kuzmin, E., Transient limb ischaemia remotely preconditions through a humoral mechanism acting directly on the myocardium: Evidence suggesting cross-species protection (2009) Clin Sci, 117, pp. 191-200

[64]

Iadecola, C., Anrather, J., The immunology of stroke: From mechanisms to translation (2011) Nat Med, 17, pp. 796-808

[65]

Newton, K., Dixit, V.M., Signaling in innate immunity and inflammation (2012) Cold Spring Harbor Perspectives in Biology, p. 4

[66]

Leung, P.Y., Stevens, S.L., Packard, A.E., Lessov, N.S., Yang, T., Conrad, V.K., Toll-like receptor 7 preconditioning induces robust neuroprotection against stroke by a novel type I interferon-mediated mechanism (2012) Stroke, 43, pp. 1383-1389

[67]

Pradillo, J.M., Fernandez-Lopez, D., Garcia-Yebenes, I., Sobrado, M., Hurtado, O., Moro, M.A., Toll-like receptor 4 is involved in neuroprotection afforded by ischemic preconditioning (2009) J Neurochem, 109, pp. 287-294

[68]

Cho, S., Park, E.M., Zhou, P., Frys, K., Ross, M.E., Iadecola, C., Obligatory role of inducible nitric oxide synthase in ischemic preconditioning (2005) J Cereb Blood Flow Metab, 25, pp. 493-501

[69]

Vartanian, K., Stenzel-Poore, M., Toll-like receptor tolerance as a mechanism for neuroprotection (2010) Transl Stroke Res, 1, pp. 252-260

[70]

Konstantinov, I.E., Arab, S., Kharbanda, R.K., Li, J., Cheung, M.M., Cherepanov, V., The remote ischemic preconditioning stimulus modifies inflammatory gene expression in humans (2004) Physiol Genomics, 19, pp. 143-150

← 2 3 4 5 6 7 8 9 10 11 →