What can venom phospholipases A(2) tell us about the functional diversity of mammalian secreted phospholipases A(2)?

Most venomous animals including snakes, bees and scorpions contain a variety of venom phospholipases A(2) (vPLA(2)s) which participate in both digestion of prey and venom toxicity. So far, more than 150 vPLA(2)s have been characterized. They all have a conserved fold with several disulfide bridges, can be catalytically active or not, and several of them can display a tremendous array of toxic effects including neurotoxicity and myotoxicity. Furthermore, the molecular diversity of vPLA(2)s found within a single snake venom can result from positive Darwinian selection. Over the last decade, receptors and binding proteins for vPLA(2)s have been identified in mammals, suggesting that vPLA(2)s can exert their toxicities through specific protein-protein interactions, besides their catalytic activity. The brain N-type receptors are involved in the neurotoxicity of vPLA(2)s, but are not yet cloned. The M-type receptor has been cloned from skeletal muscle, belongs to the superfamily of C-type lectins, and interestingly, has homology with vPLA(2) inhibitors purified from snake blood. The molecular diversity of vPLA(2)s and the presence of receptors for vPLA(2)s in mammals raises the possibility that there is also a diversity of mammalian secreted PLA(2)s (msPLA(2)s) which are the normal endogenous ligands of the vPLA(2) receptors. This view led us to clone five novel msPLA(2)s (IID, IIE, IIF, III, and X msPLA(2)s), which together with the previously cloned msPLA(2)s (IB, IIA, IIC, and V), indicate that mammals also express a large diversity of sPLA(2)s. M-type receptors can have IB and IIA msPLA(2)s as natural endogenous ligands, suggesting that msPLA(2)s, like vPLA(2)s, can function as both enzymes and ligands. msPLA(2)s were first implicated in lipid digestion, and more recently in host defense mechanisms including inflammation and antibacterial defense. The growing molecular diversity of msPLA(2)s, which all have a specific tissue distribution, and the presence of receptors suggest that msPLA(2)s, like vPLA(2)s, are endowed with a wide array of biological effects which remain to be discovered.