12MB to store 120,000 words is about 100 bytes per word. Probably at least 32 bytes of that is String overhead. If words average 10 letters and they are stored as 2-byte chars, that accounts for another 20 bytes. Then there is the reference to each String in your HashSet, which is probably another 4 bytes. The remaining 44 bytes is probably the HashSet entry and indexing overhead, or something I haven't considered above.
The easiest thing to go after is the overhead of the String objects themselves, which can take far more memory than is required to store the actual character data. So your main approach would be to develop a custom representation that avoids storing a separate object for each string. In the course of doing this, you can also get rid of the HashSet overhead, since all you really need is a simple word lookup, which can be done by a straightforward binary search on an array that will be part of your custom implementation.
You could create your custom implementation as an array of type int with one element for each word. Each of these int elements would be broken into sub-fields that contain a length and an offset that points into a separate backing array of type char. Put both of these into a class that manages them, and that supports public methods allowing you to retrieve and/or convert your data and individual characters given a string index and an optional character index, and to perform the simple searches on the list of words that are needed for your spell check feature.
If you have no more than 16777216 characters of underlying string data (e.g., 120,000 strings times an average length of 10 characters = 1.2 million chars), you can take the low-order 24 bits of each int and store the starting offset of each string into your backing array of char data, and take the high-order 8 bits of each int and store the size of the corresponding string there.
Your char data will have your erstwhile strings crammed together without any delimiters, relying entirely upon the int array to know where each string starts and ends.
Taking the above approach, your 120,000 words (at an average of 10 letters each) would require about 2,400,000 bytes of backing array data and 480,000 bytes of integer index data (120,000 x 4 bytes), for a total of 2,880,000 bytes, which is about a 75 percent savings over the present 12MB amount you have reported above.
The words in the arrays would be sorted alphabetically, and your lookup process could be a simple binary search on the int array (retrieving the corresponding words from the char array for each test), which should be very efficient.
If your words happen to be entirely ASCII data, you could save an additional 1,200,000 bytes by storing the backing data as bytes instead of as chars.
This could get more difficult if you needed to alter these strings. Apparently, in your case (spell checker), you don't need to (unless you want to support user additions to the list, which would be infrequent anyway, and so re-writing the char data and indexes to add or delete words might be acceptable).