For a traditional Caesar Cypher, you'd check a char was in the range [a-z] or [A-Z], and just pass it plain otherwise.
An alternative is to treat all characters in the same way, so not only does a become b, but µ becomes ¶ and you wrap around at U+10FFFF (the highest codepoint in Unicode) becomes U+0000 (the former is a non-character and the latter a null character, but there's no reason why a
string can't hold them to transmit to another place.
In between those two, is to act on the UTF-16. That is, you just add 1 to the value of each
char, and wrap U+FFFF through to U+0000. The output could become an invalid UTF-16 string (because it could have mis-matched surrogates, but that wouldn't prevent you from passing it around in a
string, and then decyphering it again. After all, modern encryption doesn't result in valid strings either.