There is no leak in the code shown. At all times during the execution, all allocated objects are referenceable. There is only a memory leak if an object has been allocated and cannot be referenced in any way.
If the pointer goes out of scope, or its value is changed, without the object being deallocated, that is a memory leak. But so long as the pointer is in the outermost scope and nothing else changes its value, there is no leak.
"In object-oriented programming, a memory leak happens when an object is stored in memory but cannot be accessed by the running code." Wikipedia -- 'Memory leak'
The other answers suggest that any program that uses typical singleton patterns or doesn't free all allocated objects prior to termination has a memory leak. This is, IMO, quite silly. In any event, if you accept that definition, almost every real world program or library has a memory leak, and memory leaks are certainly not all bad.
In a sense, this kind of coding is prone to a memory leak, because it's easy to change the value of the pointer or let it go out of scope. In that case, there is an actual leak. But as shown, there is no leak.
You may have a different problem though: If the destructor has side-effects, not calling it can result in incorrect operation. For example, if you never call the destructor on a buffered output stream writing to a file, the last writes may never actually happen because the buffer didn't get flushed to the file.