I was surprised to realize that I have not posted on the
difference between “mutated” and “unmutated” CLL. This is such a basic characterization of CLL
that I assumed I had posted on it previously.
Credit belongs to the late “Terry Hamblin” whose lab
actually helped figure this out and created his own CLL blog
“mutated/unmutated” that was a valuable source for CLL education prior to his
death. For many insightful articles on CLL I would direct readers to his blog.
Whether a case of CLL is referred to as “mutated” or not is
a characterization of the B cell receptor (BCR). Remember that every B cell has its own unique
BCR and it will only have that one BCR for the entire life of the B cell. When a B cell grows up to full maturity, the
BCR becomes a secreted antibody. You
make antibodies to fight off just about every infection out there. Each infection you can fight off represents
the success of a B cell to identify it, go through a bunch of rounds of cell
division, then mature to make antibodies.
Each B cell has one and only one unique BCR.
The interaction between B cells and whatever they are trying
to fight off is a really important event in B cell biology. Keep in mind that diseases like lupus and
rheumatoid arthritis are really just B cells getting confused between what is
normal in your body and what is an invading microorganism. It is super important that B cells stay
properly focused on things that are not you and leave the rest of you alone.
This is where T cells come into play. T cells are sort of like B cell
chaperones. T cells help determine if
the B cell that has received a “signal” through the BCR that is worth fighting off
or not. If the T cell thinks the B cell
is on the right track it provides “T cell help.” If the T cell thinks the B cell is misguided,
it can kill the B cell.
When a B cell gets “T cell help,” the B cell goes through a
process called “affinity maturation.”
That is just a fancy phrase to describe a set of changes that are
designed to “refine” the BCR of the engaged B cell into a more effective
antibody. The B cell literally turns on
machinery that induces mutations into the BCR.
Those that do a better job fighting the infection are selected to live
and those that do worse get eliminated from the body. Many of those mutations are in a very
specific part of the BCR called the “variable region” aka. IgVH (for the
variable region of the heavy chain of the immunoglobulin).
This is where we get the terminology “mutated” BCR, or
“mutated “IgVH” or even “mutated CLL.”
So what is “unmutated” then.
Turns out, there are circumstances where a B cell can engage
an invading germ and based upon the interaction, can go on to B cell maturity
without T cell help. In these cases
there is no “affinity maturation” and no mutations are introduced into the
IgVH. When CLL arises from such cells
they are referred to as “unmutated.” If they go through T cell help they acquire BCR mutations. At least that is the main theory out there that is somewhat under challenge.
For discussion sake, it is probably fair to say that a
particular individual with CLL will have disease that is entirely “mutated” or
“unmutated.” The way we measure this is
to compare the genetic sequence of an individuals BCR and compare it to all the
known “templates” in the human body. If
it is ≤ 98% identical, we call it mutated where more than that is non-mutated.
So why does it matter?
Turns out that cases with an unmutated IgVH / BCR typically have disease that grows more quickly.
Quite frequently it is associated with other high risk markers like
deletion of chromosomes 11Q or 17P. If
you dig deeper than FISH, you also find that many of the high risk mutations
such as BIRC3, SF3B1 and NOTCH are also more common in unmutated CLL and help determine prognosis. In short, it is often worse disease.
In fact, in our recent paper in the New England Journal ofMedicine looking at idelalisib in combination with rituximab, something like
85% of the patients who needed treatment for relapsed disease had an unmutated
BCR. I think that is a fairly dramatic
example of who is likely to have problems with their disease and need
treatment. The patients with mutated
IgVH didn’t accrue nearly as frequently to the study because they don’t relapse
as commonly (it is about a 50/50 split in new cases).
Stopping the discussion at mutated / unmutated also misses
some really fascinating information on “stereotyped” B cell receptors which are common in CLL. I have a prior post on
the subject. In short, stereotypes can
happen in about a third of CLL cases and may have very specific prognostic /
predictive information for patients that can be good or bad depending on the
subtype.
Mutated / unmutated also makes a difference with the new
drugs like ibrutinib and idelalisib.
Since these drugs are inhibiting signaling through the B cell receptor,
perhaps it is not surprising that there are differences in responses between
the two. In contrast to the general
themes of who does better / worse with chemo, it would appear that patientswith unmutated BCR / IgVH actually respond more quickly and deeply to ibrutinib.
It makes me speculate what will happen when we are finally able
to use these drugs in the front line setting.
Would it make more sense to use 6 months of chemoimmunotherapy like FCR or Bendamustine / Rituximab in those patients with a mutated BCR because they
are likely to get durable disease control?
Perhaps we would then use the newer drugs in those patients with
unmutated IgVH where the long term benefit of chemotherapy is less? Maybe a test that allowed to us fully remove
all the high risk patients with mutations or FISH abnormalities should be the
ones to get chemo? Perhaps taking a pill
every day is better even if it has to be taken for many years. I expect different patients will answer that
differently.
Anyhow, I frequently will test for the IgVH mutation status
at diagnosis because it gives me some ability to predict what the future might
look like. I often follow those patients
a little more closely in the first year or two to make sure they don’t get into
trouble whereas I am a little more relaxed with the patients with a mutated
IgVH. Patients want to know how their
disease is likely to behave, this is a test I commonly use.
A few disclaimers are important.
ZAP-70 is a test we used to use more commonly but for the most part it is merely a proxy for the status of the IgVH mutation status. Those cases that are unmutated (bad) tend to
have high ZAP-70 and vice versa. Unfortunately
testing for ZAP-70 has a lot of technical difficulties and it isn’t nearly as
reliable as sending for mutation analysis.
I do not use ZAP-70 in my clinic though there are some selected labs who
do a good job (University of California San Diego) and I would trust their
results.
Measuring CD38 is an attempt to classify how much the CLL isproliferating. This can be useful, but
other data sets have shown that CLL cells are often dying at the same rate or
higher. Merely knowing the “birth rate”isn’t quite as useful since we don’t have a test to measure the “death rate.” I like to think of CD38 as “how fast is the
treadmill going.” While you may not be
going anywhere, it can be useful to know how quickly you are spinning your
wheels trying to get there (see prior posts on clonal evolution).
Finally, we designate mutated versus unmutated based upon
the percentage of sequence similarity to known genetic sequences. 2% is the magical number. If you are greater than 2% different you are“mutated” while those that are less than 2% are “unmutated.” Occasionally you get a case where you are at
1.9% different. Once again, this is
probably humans trying to make a categorical variable out of continuous
data. Probably safe to say that the more
mutated you are the better up to a point.
Anyhow, I hope that is a useful primer on why we get this
test. I always order this and FISH at
diagnosis. Others will argue that you
don’t need FISH until you are going to select therapy. Fine, good people can disagree – I won’t
argue that point but I want to know and I think informed patients want to
know. I am looking forward to being able
to test for the new molecular markers as well and I suppose it may be the same
debate there.
Thanks for reading
