For points $p_1=[1,0,0,0], p_2=[0,1,0,0], p_3=[0,0,1,0]$, $p_4=[0,0,0,1]$ and $p_5=[1,1,1,1]$    
in the projective space $\mathbb P^3$, Let $l_{ij}$ be the line through $p_i, p_j$.
Let 

$$C=l_{12} \cup l_{23} \cup l_{34} \cup l_{45} \cup l_{51}.$$



Can one construct an explicit family of curve $\pi : \mathcal C \rightarrow B$
such that $\pi^{-1}(0)=C$ and $\pi^{-1}(t)$ is a smooth elliptic curve in $\mathbb P^3$ for $0<|t|<\epsilon$, where $\epsilon$ is a sufficiently small positive number? 


More concretely, I would like to know the defining equations of $\pi^{-1}(t)$ in $\mathbb P^3$ for each $t$.