If there is an sea on Enceladus then there will already be microbial life there [0]. Microbes can survive for ages in space [1] and there are plenty of rocks moving from the earth and all of the other planets and moons of the solar system [0,2].
One of the more interesting stories about microbes in space is that some survived on the moon for almost three years inside a camera [3]. It is not 100% certain that the microbes cultured were not from later contamination, but I know from working with them that microbes are really tough and I can believe that they could have survived!
Transpermia seems like a theory rather than a fact. While I think you're probably correct, it's better to be ultra-conservative on questions like this.
Of course it is only a theory, but a very plausible one given the frequency of rock transfer between planets and the toughness of microbes that allow them to survive in space for long time periods (both empirical facts).
There is really no way of proving transpermia - even if we to travel to Enceladus and found microbial life there how would we ever prove how it got there.
If we find DNA based microbial life it could certainly be amazing evidence in favor of transpermia. We would at least compare to DNA on earth and analyze similarities. Even plant and animal DNA are very similar (double helix shape)
Actually the easiest way to find life is to just look for DNA (or even better RNA) in the environment of interest. This is basically the way life is found in some of the amazing environments here on earth like the "lost city [0] or far under the earth [1].
Because of the technical simplicity and sensitivity of looking for DNA, any probe sent to any planet or moon would look for DNA first, basically assuming transpermia is true.
> given the frequency of rock transfer between planets
What is this frequency, exactly? My impression was that all planets are constantly bombarded with rocks from space (not from other planets), but that it would be extremely surprising for a rock to e.g. leave Earth and end up on Mercury.
The point of this story is to demonstrate facts that make transpermia less of a theory and more of a reality. We're not there yet - so don't throw the baby out with the bathwater here. We're absolutely going to go there to find life.