Why Integers Make Good Primary Keys
It's often easier to use an integer for indexing, in comparison to a string or composite key, because it lends itself well to treating results (conceptually or in practice) as an array. Depending on the database implementation, integers may also be faster to access, sort, or compare, and the integer type usually offers additional features like auto-incrementing that aren't available for other data types. How would you go about auto-incrementing a composite key, for example?
MySQL has this to say about the primary key:
The primary key for a table represents the column or set of columns that you use in your most vital queries. It has an associated index, for fast query performance. Query performance benefits from the NOT NULL optimization, because it cannot include any NULL values.
SQL allows any non-null, unique column (or set of columns) to be used as a primary key. However, if you don't care about auto-incrementing, you can usually make your primary key any index that is UNIQUE and NOT NULL.
Consider Your Application's Expectations
While not a hard requirement, some frameworks optimize for integer primary keys. For example, Ruby on Rails facilitates the use of an auto-incrementing primary key by default; you have to deliberately work against the convention if you want to use something different.
That doesn't mean one should or shouldn't use integers as primary keys. It just means the choice of primary key is driven in part by your underlying database system and the queries you expect to run against it, and in part by the applications you expect to use to retrieve the data. All of those things should be taken into consideration when considering candidate keys.