You have to understand that shared pointers are implemented using a reference count, that means that if you have cycles in your pointer graph then the objects will not be released. That is, if a points to b and b points to a but nothing points to a or b, then neither a nor b will be released because they both have a reference count of '1'.
Boost provides weak pointers to get around this, which allows you to store a pointer to a shared object without incrementing its reference count. Weak pointers provide a layer of safety in that attempting to dereference the pointer after the shared pointer has been released will raise an exception rather than crashing the program.
Shared pointers are also quite expensive (at least compared to a raw pointer) in performance terms - but it's better to use them and then remove them once a profiler identifies a bottleneck rather than not use them everywhere.
Other than that, yes, they are very useful for managing dynamically allocated objects.
Edit: Another gotcha (that's mentioned on the boost pages) is to avoid "temporary" shared_pointers:
func(A(), boost::shared_ptr<B>(new B));
because the compiler is allowed to optimise this as
tmp1 = new B;
tmp2 = A();
tmp3 = boost::shared_ptr<B>(tmp1)
which might look OK on first glance, but if A() happens to throw an exception then B has been allocated, but the shared_ptr hasn't gotten a hold of it yet, so the pointer never gets released.