These types of collections in the Java API do not support mutable elements (i.e. elements where the compareTo method changes). As such, the only way to do it is re-assemble a new list in an atomic way, or as Will suggests you can perform a remove, mutate and re-insert of the element.
HashSet has the same problem - the hash bucket is calculated on insertion of an object, then you won't be able to do
set.contains( ... ) if you mutate the object's hash code.
To be exact, collections like ConcurrentSkipListSet and HashSet perform their comparisons/hashing on insertion and removal. The only collections that 'support' mutable elements do not perform special insertion logic based on the state of the elements (e.g. an ArrayList).
The documentation for the Set interface states:
Note: Great care must be exercised if mutable objects are used as set elements. The behavior of a set is not specified if the value of an object is changed in a manner that affects equals comparisons while the object is an element in the set. A special case of this prohibition is that it is not permissible for a set to contain itself as an element.
and the documentation for the SortedSet interface states:
Note that the ordering maintained by a sorted set (whether or not an explicit comparator is provided) must be consistent with equals if the sorted set is to correctly implement the Set interface. (See the Comparable interface or Comparator interface for a precise definition of consistent with equals.) This is so because the Set interface is defined in terms of the equals operation, but a sorted set performs all element comparisons using its compareTo (or compare) method, so two elements that are deemed equal by this method are, from the standpoint of the sorted set, equal. The behavior of a sorted set is well-defined even if its ordering is inconsistent with equals; it just fails to obey the general contract of the Set interface.