A C# compiler typically converts C# code to an intermediate "language" called MSIL which, like C#, has local variables. Local variables in MSIL behave as you expect C# variables to behave: they cease to exist when the routine in which they are defined exits. Further, when C# code which uses local variables is translated into MSIL code which uses local variables, those C# variables behave like MSIL ones: they cease to exist when the defining function exits. Not all C# code which uses local variables, however, uses MSIL local variables to store them.
In various situations, the compiler will take code which is written to use local variables and, before translating it to MSIL, rewrite it so that it defines a new class object which contains fields for the variables in question, and then rewrite accesses to those variables so they instead access the new fields. If the "variables" are used by a delegate, the delegate will be given a reference to that new class object. Even if the function where the object was defined exits, the object itself will continue to exist as long as anything, including any copy of the delegate, holds a reference.
The rules that determine when a compiler uses MSIL local variables and when it rewrites things to use class fields can be tricky, and it's possible for small changes to part of a routine to change the semantics of other seemingly-unrelated parts.