Hypoxia occurs in various diseases, including cancer, ischemia, and acute and chronic vascular diseases. Here we describe the design and synthesis of the first hypoxia-sensitive MRI contrast agents, SAGds. SAGds showed a pH-dependent r(1) relaxivity change associated with intramolecular chelation of the nitrogen atom of the sulfonamide moiety to the Gd(3+) center. There was a correlation between the pK(a) of the r(1) relaxivity change and the sum of the Hammett σ constants of substituents on the aromatic ring. Among the synthesized compounds, 4NO(2)2MeOSAGd was selectively reduced to the amine by rat liver microsomes under hypoxic conditions, resulting in a 1.8-fold increment of the r(1) relaxivity owing to the change in pK(a) of the arylsulfonamide moiety. This enhancement of the r(1) relaxivity could be clearly detected in T(1)-weighted MR images. Thus, 4NO(2)2MeOSAGd is a 'smart' MRI contrast agent for the detection of hypoxia under physiological conditions.