The Balog-Szemerédi-Gowers theorem can be stated in the following form: let $A,B$ be subsets of $\mathbb{Z}/n\mathbb{Z}$ (say) with equal cardinality, such that $$ \|1_A*1_B\|_2 \ge K^{-1} \|1_A\|_1 \|1_B\|_2. $$ Then there exist $A'\subset A$, $B'\subset B$ with $|A'|\ge K^{-C}|A|$, $|B'|\ge K^{-C}|B|$ such that $|A'+B'|\le K^C |B'|$.
Here $C$ is an absolute constant.
My questions is: what happens if the $2$-norm is replaced by a $q$-norm? If $q\in (1,2)$, then it follows from Hölder that $$ \|1_A*1_B\|_q \ge K^{-1} \|1_A\|_1 \|1_B\|_q $$ implies $$ \|1_A*1_B\|_2 \ge K^{-1} \|1_A\|_1 \|1_B\|_2. $$
What about $q>2$? More precisely:
Is there any $q>2$ such that the conclusion of the B-S-G Theorem continues to hold if one assumes that $\|1_A*1_B\|_q \ge K^{-1} \|1_A\|_1 \|1_B\|_q $ (possibly with a constant $C$ that depends on $q$)?