It's quite easy to store a salted hash of a credit card number rather than the number itself for secure lookups. For 99% of the scenarios out there, this would be sufficient credit card for storage -- fast and very secure.
If you really need reversible encryption of a credit card for some scenario (continued billing, for example), I would go with a symmetric key stored in a secure location other than the database. It's been a while since I looked at PCI specs, but I'm fairly certain that's PCI compliant.
If you need fast lookups along with reversible encryption, use both options: a hash and an encryption.
There seems to be some controversy over my answer. I would like to point out the following very interesting essay from Integrity.com (PDF):
Hashing Credit Card Numbers: Unsafe Application Practices
It details many of the issues involved in storing a hash of credit card data, but its conclusion confirms my suggestion.
Yes, a raw hash of the card is not secure; that's why we salt our hashes! But a static salt is also not secure, they allow the creation of rainbow tables for known static salts. So it's best to make our salts vary in some way that is unpredictable. In the case of passwords, it's sufficient to use a separate, random hash for each password being checked; it can even reside in the same table/row as the hashed password. For the case of credit cards, this should be the same -- a random salt for each instance of the credit card being hashed. If the credit card number is stored per transaction, a separate salt for each transaction.
There are pros and cons to this approach, but it's sufficiently secure. The pros are the lack of key management; the salt and hash are right there, and don't need to change while still allowing for audit checks of the hash; e.g. does that credit card hash match this known credit card number?
The cons are in search; it's not possible to effectively search for a particular credit card number across many transactions.
Of course, you'll have this issue with external encryption anyway; unless the database is itself encrypted (something only some databases support), you won't be able to search very well. Even then, encrypting at the database or even the table level reduces search effectiveness significantly.