You shouldn't store any passwords in the database at all, encrypted or otherwise.
Instead, store a hash. When user tries to log-in, calculate the hash on the password the user entered and compare it with the hash stored in the database.
Unfortunately, plain hashes are susceptible to so called "rainbow" attacks. If an attacker gets hold of your table, (s)he could just pre-calculate hashes of the whole English1 dictionary or even of all combinations of characters up to certain length, generating so called "rainbow table", and then rapidly compare it to the database table for hashes that match. Some of your users are bound to use weak passwords that can fail under this kind of attack.
To prevent rainbow attacks, don't hash the password itself. Instead hash password + salt. The salt is a random, user-specific string that doesn't need to be more secret than the hash itself2. This introduces variations in hashes, so the attacker can no longer use the same rainbow table for all users. The attacker would in effect have to generate a new rainbow table for each user (and his/her salt), hopefully making it prohibitively expensive.
Lack of salting contributed to the massive security breach of LinkeIn this year. Quote from this New York Times article:
"Salting passwords, security experts say, is Security 101 — a basic step that LinkedIn, eHarmony and Lastfm.com all failed to take."
Of course, that should be just the last layer of a multi-layered defense, the layer designed to make attacker's life harder after they have already read your database. You should try everything in your power to prevent this from happening in the first place, including prevention of SQL injection, strict separation of tiers, proper database security, firewalls, regular patching etc...
1 Or some other human language of interest.
2 But should, ideally, be stored separately, behind a well-defined Web service API for example.