Communication
ChemComm
2006, 128, 10640–10641; (c) D. Yang, H. Wang, Z. Sun, N.-W. Chung
and J. Shen, J. Am. Chem. Soc., 2006, 128, 6004–6005; (d) P. Panizzi,
M. Nahrendorf, M. Wildgruber, P. Waterman, J.-L. Figueiredo,
E. Aikawa, J. McCarthy, R. Weissleder and S. A. Hilderbr and, J. Am.
Chem. Soc., 2009, 131, 15739–15744; (e) D. Oushiki, H. Kojima, T. Terai,
M. Arita, K. Hanaoka, Y. Urano and T. Nagano, J. Am. Chem. Soc., 2010,
132, 2795–2801; ( f ) C. Song, Z. Ye, G. Wang, J. Yuan and Y. Guan,
Chem. – Eur. J., 2010, 16, 6464–6472; (g) K. Xu, H. Chen, J. Tian,
B. Ding, Y. Xie, M. Qiang and B. Tang, Chem. Commun., 2011, 47,
9468–9470; (h) J. Tian, H. Chen, L. Zhuo, Y. Xie, N. Li and B. Tang,
Chem. – Eur. J., 2011, 17, 6626–6634; (i) Y. Koide, M. Kawaguchi,
Y. Urano, K. Hanaoka, T. Komatsu, M. Abo, T. Terai and T. Nagano,
Chem. Commun., 2012, 48, 3091–3093; ( j) Q. Zhang, Z. Zhu, Y. Zheng,
J. Cheng, N. Zhang, Y.-T. Long, J. Zheng, X. Qian and Y. Yang, J. Am.
Chem. Soc., 2012, 134, 18479–18482; (k) A. J. Shuhendler, K. Pu, L. Cui,
J. P. Uetrecht and J. Rao, Nat. Biotechnol., 2014, 32, 373–382.
9 (a) Z. Sun, H. Wang, F. Liu, Y. Chen, P. K. H. Tam and D. Yang, Org.
Lett., 2009, 11, 1887–1890; (b) T. Peng and D. Yang, Org. Lett., 2010,
12, 4932–4935; (c) F. Yu, P. Li, G. Zhao, T. Chu and K. Han, J. Am.
Chem. Soc., 2011, 133, 11030–11033; (d) F. Yu, P. Song, P. Li, B. Wang
and K. Han, Analyst, 2012, 137, 3740–3749; (e) K.-K. Lin, S.-C. Wu,
K.-M. Hsu, C.-H. Hung, W.-F. Liaw and Y.-M. Wang, Org. Lett., 2013,
15, 4242–4245; ( f ) F. Yu, P. Li, B. Wang and K. Han, J. Am. Chem.
Soc., 2013, 135, 7674–7680; (g) B. Wang, F. Yu, P. Li, X. Sun and
K. Han, Dyes Pigm., 2013, 96, 383–390; (h) X. Sun, Q. Xu, G. Kim,
S. E. Flower, J. P. Lowe, J. Yoon, J. S. Fossey, X. H. Qian, S. Bull and
T. D. James, Chem. Sci., 2014, DOI: 10.1039/C4SC01417K.
China (No. 21232005, 21321061, J1310008 and J1103315), and
the Specialized Research Fund for the Doctoral Program of
Higher Education in China (20120181130006).
Notes and references
1 (a) C. Szabo, H. Ischiropoulos and R. Radi, Nat. Rev. Drug Discovery,
2007, 6, 662–680; (b) F. C. Fang, Nat. Rev. Microbiol., 2004, 2,
820–832; (c) G. L. Squadrito and W. A. Pryor, Free Radical Biol.
Med., 1998, 25, 392–403; (d) J. S. Beckman, T. W. Beckman, J. Chen,
P. A. Marshall and B. A. Freeman, Proc. Natl. Acad. Sci. U. S. A., 1990,
87, 1620–1624.
2 N. Ashki, K. C. Hayes and F. Bao, Neuroscience, 2008, 156, 107–117.
3 (a) H. Kaur and B. Halliwell, FEBS Lett., 1994, 350, 9–12; (b) R. T. Dean,
S. Fu, R. Stocker and M. J. Davies, Biochem. J., 1997, 324, 1–18.
4 (a) J. S. Beckman, M. Carson, C. D. Smith and W. H. Koppenol, Nature,
1993, 364, 584–585; (b) H. Wiseman and B. Halliwell, Biochem. J., 1996,
313, 17–29; (c) S. M. Schieke, K. Briviba, L. O. Klotz and H. Sies, FEBS
Lett., 1999, 448, 301–303; (d) W. Kossenjans, A. Eis, R. Sahay,
D. Brochman and L. Myatt, Am. J. Physiol.: Heart Circ. Physiol., 2000,
278, 1311–1319; (e) P. Pacher, J. S. Beckman and L. Liaudet, Physiol.
Rev., 2007, 87, 315–424.
5 (a) T. Nagano, J. Clin. Biochem. Nutr., 2009, 45, 111–124; (b) G. Ferrer-
Sueta and R. Radi, ACS Chem. Biol., 2009, 4, 161–177.
6 (a) A. Vandervliet, J. P. Eiserich, C. A. Oneill, B. Halliwell and
C. E. Cross, Arch. Biochem. Biophys., 1995, 319, 341–349; (b) K. Dai,
A. G. Vlessidis and N. P. Evmiridis, Talanta, 2003, 59, 55–65;
(c) S. B. Digerness, K. D. Harris and J. W. Kirklin, Free Radical Biol.
Med., 1999, 27, 1386–1392; (d) S. F. Peteu, R. Boukherroub and
S. Szunerits, Biosens. Bioelectron., 2014, 58, 359–373.
10 (a) A. Helal, M. H. Or Rashid, C.-H. Choi and H.-S. Kim, Tetrahedron,
2011, 67, 2794–2802; (b) L. Yuan, W. Lin, J. Song and Y. Yang, Chem.
Commun., 2011, 47, 12691–12693; (c) J.-T. Hou, K. Li, K.-K. Yu,
M.-Z. Ao, X. Wang and X.-Q. Yu, Analyst, 2013, 138, 6632–6638;
(d) J.-T. Hou, K. Li, B.-Y. Liu, Y.-X. Liao and X.-Q. Yu, Tetrahedron,
2013, 69, 2118–2123.
7 (a) L. Prodi, F. Bolletta, M. Montalti and N. Zaccheroni, Coord.
Chem. Rev., 2000, 205, 59–83; (b) H. Kobayashi, M. Ogawa, R. Alford,
P. L. Choyke and Y. Urano, Chem. Rev., 2010, 110, 2620–2640; 11 (a) G.-J. Zhao, J.-Y. Liu, L.-C. Zhou and K.-L. Han, J. Phys. Chem. B,
(c) L. Yuan, W. Lin, K. Zheng, L. He and W. Huang, Chem. Soc.
Rev., 2013, 42, 622–661; (d) Z. Guo, S. Park, J. Yoon and I. Shin,
2007, 111, 8940–8945; (b) G.-J. Zhao and K.-L. Han, Acc. Chem. Res.,
2012, 45, 404–413.
Chem. Soc. Rev., 2014, 43, 16–29; (e) Y. Yang, Q. Zhao, W. Feng and 12 T. Guo, L. Cui, J. Shen, R. Wang, W. Zhu, Y. Xu and X. Qian, Chem.
F. Li, Chem. Rev., 2013, 113, 192–270. Commun., 2013, 49, 1862–1864.
8 (a) X.-F. Yang, X.-Q. Guo and Y.-B. Zhao, Talanta, 2002, 57, 883–890; 13 T. Salonen, O. Sareila, U. Jalonen, H. Kankaanranta, R. Tuominen
(b) T. Ueno, Y. Urano, H. Kojima and T. Nagano, J. Am. Chem. Soc., and E. Moilanen, Br. J. Pharmacol., 2006, 147, 790–799.
9950 | Chem. Commun., 2014, 50, 9947--9950
This journal is ©The Royal Society of Chemistry 2014