It's a very natural thought that photons will lose energy after traveling extremely long distances. But there can be many possible explainations of how that can happen. "Tired light" is just one of them.
My explanation is that it is simply a gravitational effect.
Some believe "action at a distance", i.e., gravitational force propagates at infinite speed, or at least much faster than light speed. I don't think so, the natural speed limit of information propagation is light speed and no one disputes that. Should gravitational force propagate faster than light speed, then it can be used to propagate information at faster than light speed but that breaks the causuality. Neither should gravitational force propagate slower than light speed because then you would obtain information regarding the whereabout of an object, before you feel its gravity, which is also a contradiction.
So gravity force propagates at light speed.
Now let's look at a photon being generated and propagates towards a certain direction. Obviously, not the whole universe will know about the birth of that photon right away. The sphere of "news broadcast" about the photon will start to spread from the original point where the photon is created, and quickly expands outwards in light speed.
Clearly, in the direction where the photon is going, no body knows about the photon prior to its arrival. But behind the photon, every thing within a huge sphere which centers at the birth place of the photon would all know about the photon already.
So the net result is the photon experiences NO forward gravity force, but it experiences a backward gravity force from all matters enclosed in that big sphere right behind the photon. The net effect of such a gravity force is that the photon will lose its energy.
If you do a little calculation, based on the assumption that at the radius of the visible universe, the photon will have lost all of its energy to gravitational potential, then you get the same black hole formula which says that:
R = 2*G*M/C^2
