Indexes are optional in MySQL, but they can increase performance.
Currently, MySQL can only use one index per table select, so with the given query, if you have an index on both column1 and column2, MySQL will try to determine the index that will be the most beneficial, and use only one.
The general solution, if the speed of the select is of utmost importance, is to create a multi-column index that includes both columns.
This way, even though MySQL could only use one index for the table, it would use the multi-column index that has both columns indexed, allowing MySQL to quickly filter on both criteria in the WHERE clause.
In the multi-column index, you would put the column with the highest cardinality (the highest number of distinct values) first.
For even further optimization, "covering" indexes can be applied in some cases.
Note that indexes can increase performance, but with some cost. Indexes increase memory and storage requirements. Also, when updating or inserting records into a table, the corresponding indexes require maintenance. All of these factors must be considered when implementing indexes.
Update: MySQL 5.0 can now use an index on more than one column by merging the results from each index, with a few caveats.
The following query is a good candidate for Index Merge Optimization:
SELECT * FROM t1 WHERE key1=1 AND key2=1