Homozygous deletion of a 84-kb genomic fragment in human chromosome 1 that encompasses the CFHR1 and CFHR3 genes represents a risk factor for hemolytic uremic syndrome (HUS) but has a protective effect in age-related macular degeneration (AMD). Here we identify CFHR1 as a novel inhibitor of the complement pathway that blocks C5 convertase activity and interferes with C5b surface deposition and MAC formation. This activity is distinct from complement factor H, and apparently factor H and CFHR1 control complement activation in a sequential manner. As both proteins bind to the same or similar sites at the cellular surfaces, the gain of CFHR1 activity presumably is at the expense of CFH-mediated function (inhibition of the C3 convertase). In HUS, the absence of CFHR1 may result in reduced inhibition of terminal complex formation and in reduced protection of endothelial cells upon complement attack. These findings provide new insights into complement regulation on the cell surface and biosurfaces and likely define the role of CFHR1 in human diseases. IntroductionThe complement system is important for host innate and adaptive immunity and mounts a protective immune response to invading microbes. 1 The alternative complement pathway is spontaneously activated, and generates C3 convertases (C3bBb) that cleave the central component C3 to the anaphylactic peptide C3a and C3b. 2,3 C3b attached to a foreign surface binds factor B and generates the C3 convertase (C3bBb), which enhances further complement activation resulting in opsonization and phagocytosis of particles. Binding of an additional C3b molecule to the C3 convertase forms the C5 convertase (C3bBbC3b) of the alternative pathway. This convertase cleaves C5 and generates the potent chemoattractant C5a as well as C5b, which initiates the terminal complement pathway assembly. 4 C5b immediately undergoes conformational changes and binds C6 and C7 in a nonenzymatic manner. The assembled C5b67 complex is released from the convertase and attaches to lipid bilayers. Upon binding of C8 and C9, the lytic membrane attack complex (MAC) is formed. 3,5 Once activated, this powerful defense system is tightly controlled on host cell surfaces by both membrane-anchored and surface-attached soluble regulators. Proper and coordinated function of these regulators is essential for tissue integrity. Single gene mutations predispose to severe renal and retinal diseases, that is, hemolytic uremic syndrome (HUS; OMIM no. 235400), membranoproliferative glomerulonephritis type II (MPGN II; OMIM no. 609814), or age-related macular degeneration (AMD; OMIM no. 603075). 6,7 HUS is caused by occlusion of arterioles and capillaries in the kidney, due to endothelial cell and platelet damage. 8 MPGN II is a rare renal disease, with formation of dense deposits at the glomerular basement membrane and thickening of the peripheral capillary walls. 9 Similarly, the retinal disease AMD, which causes visual impairment of elderly people, is caused by deposits (drusen) that form on the Bruch membrane and le...
The cholinergic system consists of acetylcholine (ACh), its synthesising enzyme, choline acetyltransferase (CHAT), transporters such as the high-affinity choline transporter (SLC5A7; also known as ChT1), vesicular ACh transporter (SLC18A3; also known as VAChT), organic cation transporters (SLC22s; also known as OCTs), the nicotinic ACh receptors (CHRN; also known as nAChR) and muscarinic ACh receptors. The cholinergic system is not restricted to neurons but plays an important role in the structure and function of non-neuronal tissues such as epithelia and the immune system. Using molecular and immunohistochemical techniques, we show in this study that nonneuronal cells in the parenchyma of rat testis express mRNAs for Chat, Slc18a3, Slc5a7 and Slc22a2 as well as for the CHRN subunits in locations completely lacking any form of innervation, as demonstrated by the absence of protein gene product 9.5 labelling. We found differentially expressed mRNAs for eight a and three b subunits of CHRN in testis. Expression of the a7-subunit of CHRN was widespread in spermatogonia, spermatocytes within seminiferous tubules as well as within Sertoli cells. Spermatogonia and spermatocytes also expressed the a4-subunit of CHRN. The presence of ACh in testicular parenchyma (TP), capsule and isolated germ cells could be demonstrated by HPLC. Taken together, our results reveal the presence of a non-neuronal cholinergic system in rat TP suggesting a potentially important role for non-neuronal ACh and its receptors in germ cell differentiation.
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