Let the roots of a polynomial be $a_0<a_1<a_2<\ldots<a_{n-1}$, all integer and distinct. Suppose the polynomial can also be expressed as $x^n+a_{n-1}x^{n-1}+\cdots+a_1x+a_0$. Find all such polynomial.
I can do this for degree $1$, $2$ and $3$, but I don't know how to do this in general. I just came up with this, so there may not be a solution.
Hint: Try use the Vieta's formulas
Your requirements imply $a_0 a_1 ... a_{n-1} = a_0$ and $a_0 + a_1 + ... + a_{n-1} = -a_{n - 1}$. We have two cases:
$a_0 \geq 0$: In this case $ 2a_{n - 1} + a_0 + a_1 + ... + a_{n - 1} = 0$. This means $n = 1$ and the polynomial is $x + 0$.
$a_0 < 0 $: Cancelling gives $a_1 ... a_{n-1} = 1$ which means each $a_k$ is $1$ or $-1$. But they are all distinct which means $n = 2$ and $a_1 = 1$ or $n=3$ and $a_1 a_2 = 1$. Now check.
Just for completeness, the only such polynomials are $x + 0, x^2 + x - 2$.