Distributed acoustic sensing (DAS) is a new technology, which can turn a fiber optic cable into array of acoustic / seismic receivers, and is now becoming a new approach to observe seismic signal with ultra-high spatial density. DAS technology enables us to measure seismic signals with high spatial resolution at harsh environment including volcano area, the polar regions and ocean bottom, etc. because DAS observation needs only fiber optic cable and DAS acquisition unit. Also, DAS technology can be easily applied to monitoring and repeated survey. In this study we applied seismic interferometry technique to ambient noise records observed by DAS acquisition unit connected to the Tokai-Oki seafloor cable. We observed short-term data on September 2017. Seismic interferometry technique can turn ambient noise records into pulsive pseudo shot records by calculating cross-correlation between each trace. Therefore, the analysis provide high-density shot gathers along the cable. We applied band-pass filter with frequency range from 0.5 to 3.0 Hz to the ambient noise records. Obtained pseudo shot gathers include clear signals within less than 10 km shot-receiver distance. The apparent velocities of signals shown in the shot gathers is approximately 300-600 m/s. Direct S-wave, and Scholte wave may be included in the shot gather. Our results suggest that only 1 hour continuous data are needed to obtain the clear shot gathers. We will perform further analysis using seismic signals in the shot gather to discuss applicability of DAS and seismic interferometry technique to subseafloor structural monitoring for deep and/or complicated structure, such as plate subduction zone and submarine volcanic region.