In your specific case, wrapping it thusly allows you to quickly start bolting on logic, such as making the ApplicationDbContext and singleton or handling an exception in a common way for the whole application. Since a constructor cannot return null, this can be very important to be able to catch an exception and return null.
Tuple.Create is the prime example of generic inference, which does not work with Constructors. This allows you say
Tuple.Create(Item1, Item2.. ItemN);
And the let the compiler infer types, rather than
new Tuple<T1, T2...Tn>(Item1, Item2...ItemN);
Which is more verbose, and takes a bit more work if you want to switch out one of those types.
There is also the case of Anonymous types, which cannot be specified explicitly and thus cannot be used in new statements. I have specifically had occasion where, while searching assemblies for a specific Attribute to link a command structure for, I wanted to make an enumerable (a Queue, in this case) out of an anonymous type during the search to pair class references with their constructor and string arguments, rather than looking these up every time they're needed. Since I can again use Generic inference in a method, I was able to wrap the constructor in an extension method and get the job done.
There are also cases for singleton patterns, wherein you want the "GetInstance" method to usually create a value, or get one if it exists. May not qualify since it does slightly more than wrap a constructor.
In addition, there are plenty of cases where you may want to control implementation procedures, such as forcing them onto other threads, logging them in a database to be undone later, or bolting on a permissions system, all of which can be done by making a constructor wrapper and adding a few more lines of logic, and then privatizing the constructor to avoid it being called directly.
There are also cases where I've created a factory method which delegates to known children in order to provide a different implementation of a returned interface or abstract based on provided parameters. This has the added benefit of being able to hide the implementing classes - the Type class and IEnumerable interface make use of this pattern.