Vane pump including back pressure grooves

What is claimed is: 1. A vane pump comprising: a cam ring defining a rotor chamber into which a first inlet port, a second inlet port, a first outlet port, and a second outlet port are open, the cam ring having an inner peripheral cam face having an elliptical shape; a rotor rotatably disposed in the rotor chamber such that an outer peripheral surface of the rotor faces the inner peripheral cam face, the rotor having a plurality of slits opening on the outer peripheral surface of the rotor and extending in a radial manner; and a plurality of vanes housed at least partially in the respective slits, the plurality of vanes configured to rotate together with the rotor, and the plurality of vanes defining a plurality of pump chambers between the inner peripheral cam face and the outer peripheral surface of the rotor, wherein a first pressure transition step in which a fluid sucked into the pump chambers from the first inlet port is discharged into the first outlet port and a second pressure transition step in which a fluid sucked into the pump chambers from the second inlet port is discharged into the second outlet port are performed at the same time as the rotor rotates, a first back-pressure groove and a second back-pressure groove are open into the rotor chamber, the first back-pressure groove being communicated with some of the plurality of slits to supply a back pressure from the first outlet port to the corresponding vanes, and the second back-pressure groove being communicated with other slits of the plurality of slits to supply a back pressure from the second outlet port to the corresponding vanes, the vanes to which the back pressure is supplied from the first back-pressure groove include the vanes defining the pump chambers into which the fluid is sucked from the second inlet port in the second pressure transition step, the first back-pressure groove includes a first portion radially inward of the first inlet port, a second portion radially inward of the first output port, and a third portion radially inward from the second inlet port, and a first and a second seal surfaces configured to prevent the first back-pressure groove and the second back-pressure groove from directly communication with each other. 2. The vane pump according to claim 1 , wherein the vanes defining the pump chambers where a suction step of sucking the fluid from the second inlet port in the second pressure transition step, receive the back pressure from the first back-pressure groove in an initial stage of the suction step, and receive the back pressure from the second back-pressure groove in a latter stage of the suction step. 3. The vane pump according to claim 1 , wherein the second back-pressure groove includes a first portion radially inward of the second inlet port and a second portion radially inward of the second output port, and a third portion radially inward from the second outlet port. 4. The vane pump according to claim 1 , wherein the first portion of the first back-pressure groove includes a first back-pressure introduction passage that communicates with a hack-pressure chamber of the vane pump.