There are two options I can see, both of which will yield basically the same result:
dbo.Profile.UserID, then define a unique key on
dbo.Profile.UserID (unless you use it as the PK column for
dbo.aspnet_User is logically 1 - 1 with
dbo.aspnet_Profile, so it doesn't really matter which approach you use as you will still get the same relational integrity.
If you are replacing the standard profile data table with your own implementation then it makes more sense to use the first suggestion, otherwise if you are extending the Profile schema then use the second suggestion.
aspnet_Profile is the standard table - the standard
SqlProfileProvider stores the user's profile data as a serialized property bag in
aspnet_Profile, hence why there is no separate
aspnet_ProfileData table as well.
This approach allows the profile schema to be customized easily for different applications without requiring any changes to the underlying database, and is the most optimal solution for a framework such as .NET. The drawback is that SQL Server does not have easy access to this data at all, so it is much more difficult to index, update and query the user's profile data using T-SQL and set-based logic.
The most common approach I have seen to remove this limitation is to extend the standard
SqlProfileProvider to write to a custom profile data table which has specific columns for application-specific profile properties. This table naturally has a 1-1 relationship with the aspnet_Profile table, so it has a foreign key as indicated above.
The role of the extended provider is to promote specific profile properties to columns during profile writes, and read in the columns when the profile is retrieved.
This allows you to mix-and-match storage solutions on an as-needs basis, as long as your extended provider knows how to fall back to the standard implementation where it does not 'know' about a given property.
I always think it is best to leave the standard membership tables as-is, and extend where necessary using new tables with appropriate foreign keys, then subclass the appropriate provider and override the provider methods with your own implementation (calling into the base implementation wherever possible).