I do not know if this is what you are searching for, but for the Steenrod algebra itself $\chi$ is closely related to Spanier-Whitehead duality. Let $X$ be a spectrum and $DX=F(X,S)$ its Spanier-Whitehead dual we have an isomorphism $$Hom(H^*(X,\mathbb{F}_2),\mathbb{F}_2)\rightarrow H^{-*}(DX,\mathbb{F}_2)$$ the contragredient action on the left of a Steenrod operation $\Theta$ corresponds to the action on the right of $\chi \Theta$.
When $X=M$ is a smooth manifold, Atiyah duality identifies $DM$ with the Thom spectrum of $Th(\nu)$ where $\nu=-TM$ is the stable normal bundle of $M$. And we get an isomorphism
$$H_i(M,\mathbb{F}_2)\cong Hom(H^i(M,\mathbb{F}_2),\mathbb{F}_2)\rightarrow H^{-i}(DM,\mathbb{F}_2)\cong H^{dim(M)-i}(M,\mathbb{F}_2).$$
This explains the Wu formulas $$v(M)=\chi(Sq)(w(M)).$$