This study applied EOF and SVD analysis to the assimilated ocean data and atmospheric reanalysis to explore the interannual variability of the leading coupled ocean-atmosphere mode during the period from June to September. The leading mode is characterized by the warm (cool) sea surface temperature and heat content anomaly in the Philippine Sea between the equator and 20°N and the coupled easterly (westerly) wind anomaly in the lower troposphere. The pattern was found to be closely associated with the Pacific meridional mode and ENSO. In the case of warm phase, the coupled mode was led by a cyclonic circulation in the subtropical central Pacific, which is characterized by the southwesterly near the dateline between 0~15°N. The westerly anomaly in the cyclonic circulation led to the weakening of the North Equatorial Current and therefore the further cooling in the tropical western North Pacific and the warming in the eastern Pacific. By the boreal summer, the cyclonic circulation shifts farther westward to the Philippine Sea, and the westerly prevails in almost the whole tropical Pacific. This is consistent with the reduced convection in the Philippine Sea, enhanced convection in the eastern Pacific, and a weakened Walker circulation. The Bjerknes mechanism would lead to the positive feedback between the atmosphere and ocean, and results in the occurrence of El Ni o. During the evolution, a pool of subsurface warm water moves from the dateline to the eastern Pacific from spring to winter. This is also a major feature in the ENSO. The summertime coupled mode in the tropical Western North Pacific identified in this study is apparently an important linkage between the Pacific meridional mode that occurs in the boreal spring and the El Niño that peaks in the boreal winter.