I will explain how inserting records affects a MyISAM table and explain what optimizing does, so you'll understand why inserting records has such a large effect.
With MyISAM, when you insert records, data is simply appended to the end of the data file.
Running optimize on a MyISAM table defrags the data, physically reordering it to match the order of the primary key index. This speeds up sequential record reads (and table scans).
Inserting records also adds leaves to the B-Tree nodes in the index. If a node fills up, it must be split, in effect rebuilding at least that page of the index.
When optimizing a MyISAM table, the indexes are flattened out, allowing room for more expansion (insertion) before having to rebuild an index page. This flatter index also speeds searches.
MySQL also stores statistics for each index about key distribution, and the query optimizer uses this information to help develop a good execution plan. Inserting (or deleting) many records causes these statistics to become out of date.
Optimizing MySQL recalculates the statistics for the table after the defragging and rebuilding of the indexes.
When you are appending data (adding a record with a higher primary key value such as with auto_increment), that data will not need to be later defragged since it will already be in the proper physical order. Also, when appending (inserting sequentially) into an index, the nodes are kept flat, so there's no rebuilding to be done there either.
InnoDB suffers from the same issues when inserting, but since data is kept in order by primary key due to its clustered index, you take the hit up front (at the time it's inserted) for keeping the data in order, rather than having to defrag it later. Still, optimizing InnoDB does optimize the data by flattening out the B-tree nodes and freeing up unused (deleted) keys, which improves sequential reads (table scans), and secondary indexes are similar to indexes in MyISAM, so they get rebuilt to flatten them out.
I'm not trying to make a case to stick with MyISAM. InnoDB has superior read performance due to the clustered indexes, and better update and append performance due to the record level locking versus MyISAM's table locking (assuming concurrent users). Also, InnoDB has ACID.
Still, my goal was to answer your direct question and provide some technical details rather than conjecture and hearsay.
Neither database storage engine automatically optimizes itself.