WikiJournal Preprints/CARD-CC family

Evolution and species distribution
The protein family is ancient and can be found as far back as Cnidaria, but has almost exclusively been studied in humans and mice. Notably, the protein family is absent in insects and nematodes, which makes it impossible to study its function in the most popular invertebrate model organisms (Drosophila and C. elegans). Invertebrates only have a CARD9-like ancestral CARD-CC member, and the earliest occurrence of a CARD-CC member with the CARMA domain composition is in the jawless vertebrate hagfish. All four CARD-CC family members are present in sharks, indicating that the 3 distinct CARMA CARD-CC family members were formed by two duplication events just before or very early in the jawed vertebrate evolution. The four CARD-CC members in mice and humans differ in expression domains, where CARD9 is mostly expressed in myelocytes, CARD11 in lymphocytes, while CARD10 and CARD14 are mostly expressed in non-hemapoetic cells. This gene expression differentiation between the four CARD-CC family members conserved at least as far back as frogs (Xenopus tropicalis) and fish (Danio rerio), indicating that the four CARD-CC family members have had distinct functions since early jawed vertebrate evolution.

Functions
A common theme for all four CARD-CC family proteins in mice and humans is that they are activated by different protein kinase C isoforms, and recruit BCL10 and the paracaspase MALT1 upon activation, forming a so-called CBM complex. There are four different CBM complexes, defined by which CARD-CC family member that is responsible for its assembly: CBM-9 (CARD9), CBM-1 (CARD11/CARMA1), CBM-2 (CARD14/CARMA2) and CBM-3 (CARD10/CARMA3). CBM complex assembly results in recruitment of TRAF6 to MALT1 and downstream activation of NF-κB transcriptional activity and expression of pro-inflammatory cytokines. The different CARD-CC family members show different expression pattern and gain- or loss of function mutation in the different CARD-CC family proteins cause different phenotypes.


 * Loss-of-function mutations in CARD9 disrupts lectin receptor signaling like Dectin 1, which causes enhanced susceptibility to fungal infections.
 * Strong loss-of-function mutations in CARD11 cause severe defects in lymphocyte function since it is a critical downstream signal mediator in T- and B-cell antigen receptor signaling, which results in severe combined immunodeficiency (SCID).
 * Weak (hypomorphic) mutations in CARD11 causes atopic dermatitis disease.
 * Gain-of-function mutations in CARD11 can result in B-cell lymphoma.
 * Gain-of-function mutations in CARD14 results in psoriasis or PRP.
 * There are indications that loss-of-function mutations in CARD14 could result in atopic dermatitis due to disrupted immune responses against skin microbes.
 * There are no obvious gain- or loss-of-function mutations in CARD10, but it is sometimes over-expressed in certain cancer variants, and there is a SNP in CARD10 associated to glaucoma.