396
- What is the molecular mechanism for the development of multiple neoplasias in
patients with Carney’s complex?
Protein kinase A (PRKA) is an enzyme which is ubiquitously expressed and is
involved in cell growth and proliferation in cyclic AMP-responsive tissues. The
PRKA, a heterotetramer, consists of two regulatory (R) and two catalytic (C)
subunits. Stimulation of adenylyl cyclase through G protein-coupled receptor
(GPCR) activation leads to cAMP synthesis, which in turn results in dissocia-
tion of regulatory subunits from the catalytic subunits. The free catalytic sub-
units lead to activation of downstream pathway (e.g., cyclic AMP- responsive
element-binding protein 1, i.e., CREB) which promotes cell growth and prolif-
eration. PRKAR1A gene encodes the regulatory subunit of the PRKA enzyme,
and its mutation leads to structural defects in the regulatory subunits. The
defective regulatory subunits fail to bind with catalytic subunits, thereby unre-
strained catalytic subunit activity results in tumorigenesis in cAMP-responsive
tissues in patients with Carney’s complex. This is depicted in the figure given
below (Fig. 11.7).Gβ
Gβ
Gγ
GγGα
GDP Gα
GTPcAMPActive PKAInactive PKA ATPPlasma MembraneRRRRC CC CActive
ACInactive
ACSerine-threonine phosphorylation of substrates (CREB)Fig. 11.7 Molecular mechanism of PRKA-mediated cell growth and proliferation
11 Multiple Endocrine Neoplasia