Internalization of glial cell-derived neurotrophic factor receptor GFR alpha 1 in the absence of the ret tyrosine kinase coreceptor.

1. Glial cell-derived neurothrophic factor (GDNF) interacts with a cell surface receptor, GFRalpha1, that is linked via a glycosyl-phosphatidylinositol (GPI) lipid to the cell membrane. The neurotrophic activities of GDNF are mediated by binding to GFRalpha1 and further interaction of the GDNF-GFRalpha1 complex with a coreceptor tyrosine kinase encoded by the c-Ret protooncogene. There is also evidence for the existence of cell signaling by GDNF and GFRalpha1 in the absence of Ret. 2. To further delineate the Ret-dependent and -independent functions of GDNF, cellular internalization of GDNF and GFRalpha1 was examined in cells lines and primary neurons. 3. Relative to other GPI-anchored receptors, efficient endocytosis (approximately 30-40% of total surface-bound ligand internalized after 2 min) of GNDF and GFRalpha1 was observed in neuroblastoma and transfected-fibroblast cell lines that lack Ret. Primary hippocampal neurons from transgenic mice that express a wild-type GFRalpha1 together with a mutant, tyrosine kinase-inactive Ret also internalized GDNF efficiently (approximately 20% of total surface-bound ligand internalized after 2 min). We also observed a ligand dependence for GFRalpha1 internalization in the cell lines that lack Ret. Furthermore, a comparison in the presence and absence of Ret indicates that this coreceptor tyrosine kinase slows internalization at early time points. 4. The data suggest different mechanisms of internalization for GDNF-GFRalpha1 in the absence and presence of the Ret coreceptor.

Neurturin is a neurotrophic factor for penile parasympathetic neurons in adult rat.

Neurturin (NRTN), a member of the GDNF family of neurotrophic factors, promotes the survival and function of several neuronal populations in the peripheral and central nervous system. Recent gene ablation studies have shown that NRTN is a neurotrophic factor for many cranial parasympathetic and enteric neurons, whereas its significance for the sacral parasympathetic neurons has not been studied. NRTN signals via a receptor complex composed of the high-affinity binding receptor component GFRalpha2 and the transmembrane tyrosine kinase Ret. The aim of this study was to determine whether NRTN could be an endogenous trophic factor for penis-projecting parasympathetic neurons. NRTN mRNA was expressed in smooth muscle of penile blood vessels and corpus cavernosum in adult rat as well as in several intrapelvic organs, whereas GFRalpha2 and Ret mRNAs were expressed in virtually all cell bodies of the penile neurons, originating in the major pelvic ganglia. (125)I-NRTN injected into the shaft of the penis was retrogradely transported into the major pelvic and dorsal root ganglia. Mice lacking the GFRalpha2 receptor component had significantly less nitric oxide synthase-containing nerve fibers in the dorsal penile and cavernous nerves. In conclusion, these data suggest that NRTN acts as a target-derived survival and/or neuritogenic factor for penile erection-inducing postganglionic neurons.

GDNF triggers a novel ret-independent Src kinase family-coupled signaling via a GPI-linked GDNF receptor alpha1.

Glial cell line-derived neurotrophic factor (GDNF) has potentially great clinical importance in the treatment of Parkinson's disease and several other neurodegenerative diseases, however its intracellular signaling mechanisms are poorly understood. Here we show that upon GDNF binding glycosyl-phosphatidylinositol (GPI)-linked GDNF receptor alpha1 (GFRalpha1) activates cytoplasmic Src family tyrosine kinase(s) in Ret tyrosine kinase-deficient cultured mouse dorsal root ganglion neurons and in two Ret-negative cell lines. GFRalpha1-mediated Src-type kinase activation subsequently triggers phosphorylation of mitogen-activated protein kinase, cAMP response element binding protein and phospholipase Cgamma. We therefore conclude that GDNF can activate intracellular signaling pathways Ret-independently via GPI-linked GFRalpha1.

Expression of the vascular endothelial growth factor C receptor VEGFR-3 in lymphatic endothelium of the skin and in vascular tumors.

It is difficult to identify lymph vessels in tissue sections by histochemical staining, and thus a specific marker for lymphatic endothelial cells would be more practical in histopathological diagnostics. Here we have applied a specific antigenic marker for lymphatic endothelial cells in the human skin, the vascular endothelial growth factor receptor-3 (VEGFR-3), and show that it identifies a distinct vessel population both in fetal and adult skin, which has properties of lymphatic vessels. The expression of VEGFR-3 was studied in normal human skin by in situ hybridization, iodinated ligand binding, and immunohistochemistry. A subset of developing vessels expressed the VEGFR-3 mRNA in fetal skin as shown by in situ hybridization and radioiodinated vascular endothelial growth factor (VEGF)-C bound selectively to a subset of vessels in adult skin that had morphological characteristics of lymphatic vessels. Monoclonal antibodies against the extracellular domain of VEGFR-3 stained specifically endothelial cells of dermal lymph vessels, in contrast to PAL-E antibodies, which stained only blood vessel endothelia. In addition, staining for VEGFR-3 was strongly positive in the endothelium of cutaneous lymphangiomatosis, but staining of endothelial cells in cutaneous hemangiomas was weaker. These results establish the utility of anti-VEGFR-3 antibodies in the identification of lymphovascular channels in the skin and in the differential diagnosis of skin lesions involving lymphatic or blood vascular endothelium.