Let's ignore optimization for a moment, and just think about what the abstract machine has to do to reference a local variable vs. a variable through a (local) pointer. If we have local variables declared as:
when we reference the value of i, the unoptimized code has to go get the value that is (say) at 12 past the current stack pointer and load it into a register so we can work with it. Whereas when we reference *p, the same unoptimized code has to go get the value of p from 16 past the current stack pointer, load it into a register, and then go get the value that the register points to and load it into another register so we can work with it as before. The first part of the work is the same, but the pointer access conceptually involves an additional step that needs to be done before we can work with the value.
That was, I think, the point of the interview question - to see if you understood the fundamental difference between the two types of access. You were thinking that the local variable access involved a kind of lookup, and it does - but the pointer access involves that very same type of lookup to get to the value of the pointer before we can start to go after the thing it is pointing to. In simple, unoptimized terms, the pointer access is going to be slower because of that extra step.
Now with optimization, it may happen that the two times are very close or identical. It is true that if other recent code has already used the value of p to reference another value, you may already find p in a register, so that the lookup of *p via p takes the same time as the lookup of i via the stack pointer. By the same token, though, if you have recently used the value of i, you may already find it in a register. And while the same might be true of the value of *p, the optimizer can only reuse its value from the register if it is sure that p hasn't changed in the mean time. It has no such problem reusing the value of i. In short, while accessing both values may take the same time under optimization, accessing the local variable will almost never be slower (except in really pathological cases), and may very well be faster. That makes it the correct answer to the interviewer's question.
In the presence of memory hierarchies, the difference in time may get even more pronounced. Local variables are going to be located near each other on the stack, which means that you are very likely to find the address you need already in main memory and in the cache the first time you access it (unless it is the very first local variable you access in this routine). There is no such guarantee with the address the pointer points to. Unless it was recently accessed, you may need to wait for a cache miss, or even a page fault, to access the pointed-to address, which could make it slower by orders of magnitude vs. the local variable. No, that won't happen all the time - but it's a potential factor that could make a difference in some cases, and that too is something that could be brought up by a candidate in response to such a question.
Now what about the question other commenters have raised: how much does it matter? It's true, for a single access, the difference is going to be tiny in absolute terms, like a grain of sand. But you put enough grains of sand together and you get a beach. And though (to continue the metaphor) if you are looking for someone who can run quickly down a beach road, you don't want someone who will obsess about sweeping every grain of sand off the road before he or she can start running, you do want someone who will be aware when he or she is running through knee-deep dunes unnecessarily. Profilers won't always rescue you here - in these metaphorical terms, they are much better at recognizing a single big rock that you need to run around than noticing lots of little grains of sand that are bogging you down. So I would want people on my team who understand these issues at a fundamental level, even if they rarely go out of their way to use that knowledge. Don't stop writing clear code in the quest for microoptimization, but be aware of the kinds of things that can cost performance, especially when designing your data structures, and have a sense of whether you are getting good value for the price you are paying. That's why I think this was a reasonable interview question, to explore the candidate's understanding of these issues.