What happens to your query if you run it with an explicit conversion around the argument (e.g., to_char(:1) or to_number(:1) as appropriate)? If doing so makes your query run fast, you have your answer.
However, if your query still runs slow with the explicit conversion, there may be another issue. You don't mention what version of Oracle you're running, if your high-cardinality column (natural_key1) has values that have a very skewed distribution, you may be using a query plan generated when the query was first run, which used an unfavorable value for :1.
For example, if your table of 1 million rows had 400,000 rows with natural_key1 = 1234, and the remaining 600,000 were unique (or nearly so), the optimizer would not choose the index if your query constrained on natural_key1 = 1234. Since you're using bind variables, if that was the first time you ran the query, the optimizer would choose that plan for all subsequent runs.
One way to test this theory would be to run this command before running your test statement:
alter system flush shared_pool;
This will remove all query plans from the optimizer's brain, so the next statement run will be optimized fresh. Alternatively, you could run the statement as straight SQL with literals, no bind variables. If it ran well in either case, you'd know your problem was due to plan corruption.
If that is the case, you don't want to use that alter system command in production - you'll probably ruin the rest of your system's performance if you run it regularly, but you could get around it by using dynamic sql instead of bind variables, or if it is possible to determine ahead of time that :1 is non-selective, use a slightly different query for the nonselective cases (such as re-ordering the conditions in the WHERE clause, which will cause the optimizer to use a different plan).
Finally, you can try adding an index hint to your query, e.g.:
SELECT /*+ INDEX(src_table,<name of index for natural_key1>) */
WHERE natural_key1 = :1
AND natural_key2 = :2
AND natural_key3 = :3;
I'm not a big fan of index hints - they're a pretty fragile method of programming. If the name changed on the index down the road, you'd never know it until your query started to perform poorly, plus you're potentially shooting yourself in the foot if server upgrades or data distribution changes result in the optimizer being able to choose an even better plan.