The short answer is that you should be using size_type of the type of vector that is being indexed into. If RoomCentreNodeVectors() returns a vector of vector of int, then your first loop specifies the type correctly. Most likely it will equate to size_t.
The rest of this is answering more than your question and you may ignore it if you wish.
First, typedefs will help make this easier to read. For example
typedef std::vector<Node> NodeVec;
typedef std::vector<int> IntVec;
typedef std::vector<IntVec> IntVecVec;
for (IntVecVec::size_type i = 0; ...
Unless the value of RoomCentreNodeVectors() changes during this loop, I would certainly save the return value so that you don't have to make that function call every time. This is especially true if the function returns a value rather than a reference type, because you'll be copying that vector twice every time through the loop. And, as a R. Martinho Fernandes mentioned, you could use iterators as well, and avoid the whole size_type question:
const IntVecVec& nodeVecs = RoomCentreNodeVectors();
IntVecVec::const_iterator end = nodeVecs .end();
const NodeVec& nodes = level.Nodes(); // if Nodes() doesn't change during loop
for (IntVecVec::const_iterator iter = nodeVecs .begin(); iter != end; ++iter)
const IntVec& vec = *iter;
int j = vec;
int room = nodes[j].Room();