I'm study the papper "H. Bray, S. Brendle, M. Eichmair, and A. Neves, Area-minimizing projective planes in three-manifolds, Comm. Pure Appl. Math". (see http://arxiv.org/abs/0909.1665).
Let be $\mathrm{sys}(M,g):=\inf \{L(\gamma): \gamma \mathrm{\ is\ a\ non-contractible\ loop\ in}\ M\}$
The Pu's inequality say that
$\mathrm{sys}(\mathbb{RP}^2,g) = \frac\pi2 \mathrm{area}(\mathbb{RP}^2,g),$
if $g$ is the round metric on $\mathbb{RP}^2$.
Why $\mathrm{sys}(\mathbb{RP}^3,g) = \pi,$ if $g$ is the round metric on $\mathbb{RP}^3$?