Ideally the system would always acknowledge the sequence of Key A->Key B.
However to acknowledge that a key was pressed, the system must do something at the point at which each key is pressed, I.e. when the keyboard interrupt occurs - at a minimum it must record the key presses, perhaps in a queue.
And from the perspective of a single processor, it can only do one thing at a time, so if it is in the middle of recording key press A, then it can't at the same time record key press B.
It would either have to abandon A and record B instead, or it would have to ignore B.
Thus the goal of interrupt handling is to minimise the amount of time the processor spends doing the minimum it needs to for acknowledging any given interrupt.
The goal of threaded interrupts is to push more of the work to separate threads, so that the minimum needed for acknowledging an interrupt is reduced, and therefore the time spent handling the interrupt (where it can't handle any other interrupts at the same time) is reduced.
Even then there is still no theoretical guarantee that the processor won't have to discard or ignore interrupts, but it does make it a lot less likely in practice.
For your specific example of key presses, if you were somehow able to be quick enough to press B before the processor had completed its minimum handling of A, then since both interrupts are from the same source, and therefore have the same priority, B would be ignored, and it would appear to you as if B was never pressed.