Characteristics of Partially Purified Nerve Growth Factor Receptor

Receptors for the nerve growth factor protein (NGF) have been isolated from three cell types [embryonic chicken sensory neurons (dorsal root sensory ganglia; DRG), rat pheochromocytoma (PC12) and human neuroblastoma (LAN-1) cells] and have been shown to be similar with respect to equilibrium dissociation constants. The present results demonstrate that there are multiple molecular weight species for NGF receptors from DRG neurons and PC12 cells. NGF receptors can be isolated from DRG as four different molecular species of 228, 187, 125, and 112 kilodaltons, and PC12 cells as three molecular species of 203, 118, and 107 kilodaltons. The NGF receptors isolated from DRG show different pH-binding profiles for high- and low-affinity binding. High-affinity binding displays a bell-shaped pH profile with maximum binding between pH 7.0 and 7.9, whereas low-affinity binding is constant between pH 5.0 and 9.1, with a twofold greater binding at pH 3.6. At 22 degrees C, the association rate constant was found to be 9.5 +/- 1.0 X 10(6) M-1 s-1. Two dissociation rate constants were observed. The fast dissociating receptor has a dissociation rate constant of 3.0 +/- 1.5 X 10(-2) s-1, whereas the slow dissociating receptor constant was 2.4 +/- 1.0 X 10(-4) s-1. The equilibrium dissociation constants calculated from the ratio of dissociation to association rate constants are 2.5 X 109-11) M for the high-affinity receptor (type I) and 3.2 X 10(-9) M for the low-affinity receptor (type II). These values are the same as those determined by equilibrium experiments on the isolated receptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Removal of C6 Astrocytoma Cell Surface Molecules with Phosphatidylinositol Phospholipase C: Effect on Regulation of Neurol Cell Adhesion Molecule Isoforms

In earlier studies, a 75,000-dalton glycoprotein (gp75) has been identified as a component of both low- and high-affinity nerve growth factor (NGF) receptors (NGFRs). Using an amphoteric expression vector, we have introduced the cDNA encoding the human gp75 into two neuroblastoma cell lines. SHEP is a human neuroblastoma cell line that lacks most neuronal characteristics and does not express NGFRs. The transformant line SHEP/NGFR expressed a single affinity class of NGF binding sites, did not display NGF-induced up-regulation of fos oncogene expression, and did not efficiently internalize NGF. LAN5 is a neuroblastoma cell line with neuronal characteristics, including expression of neurofilament and display of short neurites. This cell line expresses a small number of high-affinity NGFRs but no detectable low-affinity sites. The transformant line LAN5/NGFR expressed both high- and low-affinity NGFRs, displayed NGF-induced up-regulation of fos oncogene, and efficiently internalized NGF. The number of high-affinity NGF binding sites was nearly the same for LAN5 and LAN5/NGFR, a finding suggesting that there is a limiting number of some separately coded factor or subunit that is required for high-affinity NGFRs. Because NGF induction of fos oncogene expression correlated with expression of high-affinity NGFRs, the putative second factor may also limit NGF responsiveness.     

A comparison of binding properties and structure of NGF receptor on PC12 pheochromocytoma and A875 melanoma cells

Rat PC12 pheochromocytoma and human A875 melanoma cells express nerve growth factor (NGF) receptors on their surfaces. Covalent crosslinking of bound 125I-NGF to PC12 or A875 intact cells or plasma membrane-enriched fractions resulted in labelling of a peptide doublet at Mr = 110,000 and a single labelled peptide at Mr = 200,000 for each of the cell and membrane preparations. However, a difference between equilibrium binding properties of NGF-receptor on PC12 and A875 cells was observed. PC12 cells exhibited biphasic binding properties with two apparent binding sites: KD = 5.2 nM sites and KD = 0.3 nM sites. The high-affinity PC12 binding sites were trypsin resistant, and 125I-NGF dissociated slowly from them. A875 cells exhibited sites with homogeneous properties (KD = 1.0 nM), all binding sites were trypsin sensitive, and 125I-NGF dissociated rapidly in the presence of unlabelled NGF. Membrane-enriched fractions from either cell type contained binding sites with a uniform low affinity (KD = 3 nM) that were trypsin sensitive, and 125I-NGF rapidly dissociated from them. Sixty to 80 percent of binding sites in membranes could be converted to the high-affinity, trypsin-resistant state by addition of wheat germ agglutinin (WGA). The loss of high-affinity, trypsin-resistant sites from PC12 cells during preparation of plasma membrane fractions does not appear to be the result of selective isolation of low-affinity sites or proteolytic degradation since there is a loss of 125I-NGF binding immediately after cell lysis which is not blocked by protease inhibitors. Also, high-affinity, trypsin-resistant binding sites are not found associated with other cell fractions. The differences between receptor properties on PC12 cells and on A875 cells apparently are the result of differences in the respective intracellular environments. Thus, significant structural homology exists between receptors on A875 and PC12 cells. Cell components other than the binding unit of the NGF receptor may be responsible for the different properties of receptor.     

Involvement of Nerve Growth Factor and Its Receptor in the Regulation of the Cholinergic Function in Aged Rats

The role of nerve growth factor (NGF) and its receptor (NGFR) in the regulation of cholinergic activity has been studied during the aging process. NGFRs were quantified in cortical membranes using a radioactive binding assay. NGF levels and choline acetyltransferase (ChAT) activity were determined in cortex, hippocampus, neostriatum, and septum. These assays were performed in both adult (6-month-old) and aged (36-month-old) rats. High- and low-affinity 125I-NGF binding sites were present in cortex of adult and aged rats. Furthermore, we observed a decrease in number and affinity of both NGFRs in aged rats. ChAT activity in these rats was lower (approximately 30%) than in adult rats in all the brain regions examined. NGF levels were not modified in cortex and hippocampus and were decreased in neostriatum (55%) and septum (35%). In conclusion, our results suggest that, during the aging process, the cholinergic impairment is related to a decrease in NGF levels in neostriatum but not in cortex and hippocampus. The reduction in level of NGF protein in septum could be due to a decrease in number of high-affinity 125I-NGF binding sites.     

Induction of the high-affinity nerve growth factor receptor on embryonic chicken sensory nerve cells by elevated potassium

Culture medium with elevated K⁺ has been shown to enhance the survival of neurons isolated from several different regions of the nervous system. Nerve growth factor binds to binding sites on sensory and sympathetic neurons through two sites, one of high-affinity (K _d13×10^–11 M) and the other of low-affinity (K _d22×10^–9 M). Equilibrium binding data generated on dissociated cells derived from E9 chicken embryo dorsal root ganglia, has shown that there is a two-fold increase in the number of high affinity (type I) receptors, with no effect on the affinity, when cells are incubated for 2 hours in buffer containing 59 mM K⁺. There does not appear to be a significant change in the affinity or the number of low-affinity binding sites. This two-fold increase in type I receptors is dependent on temperature, Ca²⁺, and active protein synthesis. There does not appear to be an intracellular pool of the type I receptor sufficient to account for this increase. The induction is not observed on sensory nerve cells cultured in 59 mM K⁺ for 24 hours, either in the presence or absence of nerve growth factor. Additionally, the induction in the number of type I receptors requires that both nerve growth factor and K⁺ be present simultaneously. Taken in total, this data suggests that there may be a critical period in which the sensory neurons require nerve growth factor exposure to respond. Evidence is presented which indicates that nerve growth factor responsive cells are able to elicit neurites after an acute exposure to nerve growth factor of as little as 4 hours. Finally, there is an approximate two-fold decrease in the concentration of nerve growth factor needed to elicit maximal fiber outgrowth, consistent with the two-fold increase in the number of type I receptors.Abbreviations NGF nerve growth factor - 7S NGF the high molecular weight form of NGF - NGF the -subunit of 7S NGF - ¹²⁵I-NGF ¹²⁵I-labeled NGF - mNGF–_rAb polyclonal rabbit IgG raised against mouse NGF - DRG dorsal root ganglia - K_d the equilibrium dissociation constant - N the maximal number of binding sites for the ligand NGF - NGFR the biologically relevant receptor through which the neurite outgrowth and neuron survival are mediated - GBS Gey's balanced salts - HKGBS high K⁺ GBS - PBG phosphate buffered GBS - HKPBG high K⁺ PBG - CFHKPBG Ca⁺² free high K⁺ PBG - PBG-cyt c PBG containing 2 mg/ml cytochrome c - HKPBG-cyt c HKPBG containing 2 mg/ml cytochrome c - AbU antibody unit - BU biological unit PBS, phosphate buffered saline - HKPBS high K⁺ PBS Special Issue dedicated to Dr. E. M. Shooter and Dr. S. Varon.     

神经生长因子家族及其受体研究进展

过去几年在神经营养因子、受体和神经元细胞程序性死亡的研究领域中取得了几项引人注目的进展：（１）神经生长因子（ＮＧＦ）基因家族的其他一些成员包括脑源性神经营养因子（ＢＤＮＦ）、神经营养素－３（ＮＴ－３）、神经营养素－４（ＮＴ－４）、神经营养素－５（ＮＴ－５）的发现;（２）神经生长因子三维结构及功能和进化之关系的阐明;（３）定性了两种神经生长因子受体Ｐ７５＾ＮＧＦＲ和原癌基因ｐ１４０＾ｔｒｋＡ以及相关     

Multiple defects of the nerve growth factor receptor in human neuroblastomas

Neuroblastoma is a tumor of postganglionic sympathetic origin, and nerve growth factor (NGF) is normally required for the survival and differentiation of sympathetic neuroblasts. Since the biological activity of NGF is mediated by the NGF receptor (NGFR), we hypothesized that defects in the NGF/NGFR pathway may play a role in maintenance of the undifferentiated state of neuroblastomas. To test this hypothesis, we examined the structure of the NGFR at the DNA, RNA, and protein levels in a panel of 10 neuroblastoma cell lines. In addition, we examined the function of the NGFR in these lines by analysis of NGF binding kinetics, as well as by the ability of NGF to induce c-fos expression and neurite outgrowth. Southern blot analysis showed that all 10 cell lines possess apparently normal NGFR genes. Northern blot and ligand binding/immunoprecipitation assays revealed four receptor-positive cell lines (NGP, NLF, SK-N-SH, and LA-N-6), with NGFR mRNA and protein of expected sizes (3.8 kilobases and Mr approximately 75,000, respectively). NGF binding assays and Scatchard analyses were performed on the four NGFR-positive lines. The NGP line possesses only low-affinity receptor (Kd approximately 3.5 x 10(-9)), whereas the other three lines express both low- and high-affinity forms (Kd approximately 10(-9) and Kd approximately 10(-11), respectively). However, none of the 10 lines exhibited a response to NGF treatment as assayed by c-fos mRNA induction and neurite extension.(ABSTRACT TRUNCATED AT 250 WORDS)     

bFGF、NGF、EGF及其受体在人胚神经管早期发育中的表达

研究bFGF、NGF、EGF及其受体在人胚神经管早期发育中的表达。方法 应用免疫组织化学方法和图像分析。结果显示bFGF和NGF的表达时序不同,bFGF阳性细胞出现较早,在所检测在各个发育阶段均呈阳性表达,而NGF出现较晚,随着胚龄增加,免疫阳性着色逐渐增强,bFGF分布较NGF广泛,而EGF在所检测的各个发育阶段均呈阴性。flg、TrkA、EGFR表达时序和分布相似,三者在所检测的各个发育阶段均阳性。结果表明NGF和bFGF均通过其特异性受体介导,在胚胎神经管形成和分化的不同阶段发挥着重作用,EGF及其受体的作用有待进一步研究。     

Ligand-induced association of epidermal growth factor receptor to the cytoskeleton of A431 cells

Recently, we have obtained evidence in favor of a structural interaction between the epidermal growth factor (EGF) receptor and the Triton X-100-insoluble cytoskeleton of epidermoid carcinoma A431 cells. Here we present a further analysis of the properties of EGF receptors attached to the cytoskeleton. Steady-state EGF binding studies, analyzed according to the Scatchard method, showed that A431 cells contain two classes of EGF-binding sites: a high-affinity site with an apparent dissociation constant (KD) of 0.7 nM (7.5 x 10(4) sites per cell) and a low-affinity site with a KD of 8.5 nM (1.9 x 10(6) sites per cell). Non-equilibrium binding studies revealed the existence of two kinetically distinguishable sites: a fast-dissociating site, with a dissociation rate constant (k-1) of 1.1 x 10(-3) s-1 (1.0-1.3 x 10(6) sites per cell) and a slow-dissociating site, with a k-1 of 3.5 x 10(-5) s-1 (0.6-0.7 x 10(6) sites per cell). The cytoskeleton of A431 cells was isolated by Triton X-100 extraction. Scatchard analysis revealed that approximately 5% of the original number of receptors were associated with the cytoskeleton predominantly via high-affinity sites (KD = 1.5 nM). This class of receptors is further characterized by the presence of a fast-dissociating component (k-1 = 2.0 x 10(-3) s-1) and a slow-dissociating component (k-1 = 9.1 x 10(-5) s-1). The distribution between fast and slow sites of the cytoskeleton was similar to that of intact cells (65% fast and 35% slow sites). Incubation of A431 cells for 2 h at 4 degrees C in the presence of EGF resulted in a dramatic increase in the number of EGF receptors associated to the cytoskeleton. These newly cytoskeleton-associated receptors appeared to represent low-affinity binding sites (KD = 7 nM). Dissociation kinetics also revealed an increase of fast-dissociating sites. These results indicate that at 4 degrees C EGF induces the binding of low-affinity, fast-dissociating sites to the cytoskeleton of A431 cells.     

Binding of brain-derived neurotrophic factor to the nerve growth factor receptor

The neurotrophic proteins BDNF and NGF are related in their primary structures, and both have high- and low-affinity receptors on their responsive neurons. In this study, we investigate the extent to which these receptors can discriminate between BDNF and NGF. We found that a 1000-fold excess of the heterologous ligand is needed to reduce binding to the high-affinity receptor by 50%, but that the same concentrations of BDNF and NGF similarly reduce the binding of either ligand to the low-affinity receptor. Results obtained with cells transfected with the low-affinity NGF receptor gene indicate that these cells bind BDNF, in addition to NGF, whereas cells before transfection do not. These data indicate that the low-affinity NGF receptor is also a low-affinity BDNF receptor and that whatever is conferring high-affinity binding and biological response also considerably reinforces the ability of the low-affinity receptor to discriminate between NGF and BDNF.     

Internalization and cycling of nerve growth factor in PC12 cells: interconversion of type II (fast) and type I (slow) nerve growth factor receptors

The effects of agents that inhibit receptor-mediated endocytosis on type I (slow or high-affinity) and type II (fast or low-affinity) NGF binding have been examined in rat PC12 cells. Compounds interfering with endocytosis eliminate type I NGF binding; those interfering with acidification of endosomal vesicles cause increased type I binding at the expense of type II binding. Measurement of NGF binding during and after treatment with inhibitors indicates that NGF receptors rapidly cycle from the cell surface into an undefined endocytotic compartment and back to the surface with little degradation of receptor or NGF, consistent with a model in which NGF receptors are rapidly and reversibly endocytosed or sequestered; those receptors free on the surface represent type II NGF receptors, while those in the process of endocytosis represent type I NGF receptors. The type I and type II NGF receptor species can be interconverted by agents that can manipulate the position of the receptor in the internalization cycle.     

Binding of neurotrophin-3 to its neuronal receptors and interactions with nerve growth factor and brain-derived neurotrophic factor.

Neurotrophin-3 (NT-3) has low-affinity (Kd = 8 x 10(-10) M), as well as high-affinity receptors (Kd = 1.8 x 10(-11) M) on embryonic chick sensory neurons, the latter in surprisingly high numbers. Like the structurally related proteins nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF), NT-3 also binds to the low-affinity NGF receptor, a molecule that we suggest to designate low-affinity neurotrophin receptor (LANR). NT-3 dissociates from the LANR much more rapidly than BDNF, and more slowly than NGF. The binding of labelled NT-3 to the LANR can be reduced by half using a concentration of BDNF corresponding to the Kd of BDNF to the LANR. In contrast, the binding of NT-3 to its high-affinity neuronal receptors can only be prevented by BDNF or NGF when used at concentrations several thousand-fold higher than those corresponding to their Kd to their high-affinity neuronal receptors. Thus, specific high-affinity NT-3 receptors exist on sensory neurons that can readily discriminate between three structurally related ligands. These findings, including the remarkable property of the LANR to bind three related ligands with similar affinity, but different rate constants, are discussed.     

Phosphatidylcholine Biosynthesis in the Neuroblastoma-Glioma Hybrid Cell Line NG 108-15: Stimulation by Phorbol Esters

Studies were conducted on curaremimetic neurotoxin binding to the nicotinic acetylcholine receptor present on membrane fractions derived from the human medulloblastoma clonal line, TE671. High-affinity binding sites (KD = 2 nM for 1-h incubation at 20 degrees C) and low-affinity binding sites (KD = 40 nM) for 125I-labeled alpha-bungarotoxin are present in equal quantities (60 fmol/mg membrane protein). The kinetically determined dissociation constant for high-affinity binding of toxin is 0.56 nM (k1 = 6.3 X 10(-3) min-1 nM-1; k-1 = 3.5 X 10(-3) min-1) at 20 degrees C. Nicotine, d-tubocurarine, and acetylcholine are among the most effective inhibitors of high-affinity toxin binding. The quantity of toxin binding sites and their affinity for cholinergic agonists is sensitive to reduction, alkylation, and/or oxidation of membrane sulfhydryl residues. High-affinity toxin binding sites that have been subjected to reaction with the sulfhydryl reagent dithiothreitol are irreversibly blocked by the nicotinic receptor affinity reagent bromoacetylcholine. High-affinity toxin binding is inhibited in the presence of either of two polyclonal antisera or a monoclonal antibody raised against nicotinic acetylcholine receptors from fish electric tissue. Taken together, these results indicate that curaremimetic neurotoxin binding sites on membrane fractions of the TE671 cell line share some properties with nicotinic acetylcholine receptors of peripheral origin and with toxin binding sites on other neuronal tissues.     

Molecular and cellular properties of human polymorphonuclear leukocyte receptors for leukotriene B4

The distinctive characteristics of human polymorphonuclear (PMN) leukocyte receptors for leukotriene B4 (LTB4) have been elucidated by studies of binding of [3H]LTB4, the structure of protein constituents of the receptors isolated from plasma membranes, and the effects of antireceptor antibodies. A high-affinity class of 4400 receptors with a KD of 0.4 nM mediates chemotaxis and increased adherence of PMN leukocytes, whereas a low-affinity class of 270,000 receptors with a KD of 61 nM mediates the release of lysosomal enzymes and increases in oxidative metabolism. The low-affinity receptors are composed of a 60,000-dalton protein-binding unit. The high-affinity receptors are composed of the same binding unit in association with a 40,000-dalton guanine nucleotide-binding protein. That antireceptor antibodies as well as LTB4 distinguish the two classes of receptors with different functional consequences suggests the possibility of unique approaches to the regulation of leukocyte function at the receptor level.     

Expression of Nerve Growth Factor and Nerve Growth Factor Receptor Genes in Human Tissues and in Prostatic Adenocarcinoma Cell Lines

Nerve growth factor (NGF) mRNAs were detected and quantified in a variety of normal and neoplastic human tissues by northern blot hybridization. Human heart contained the highest NGF mRNA levels, whereas lower but comparable levels were found in the placenta, prostate, and kidney. All tissues examined coexpressed the low-affinity NGF receptor (LNGFR), whereas none of these tissues expressed the high-affinity NGF receptor encoded by the trk protooncogene. The widespread distribution of the LNGFR suggests that it plays a role in the regulation of normal cell growth. No overexpression of NGF or LNGFR mRNA was detected in neoplastic tissues, whereas LNGFR-like immunoreactivity was localized outside of tumor cells. Transforming growth factor-alpha and protooncogene c-fos expression in these tissues did not show a systematic correlation with NGF/LNGFR expression. Furthermore, regulation of the human NGF gene was studied in DU145 cells, a prostatic adenocarcinoma cell line that synthesizes significant NGF mRNA levels. Serum induced, whereas dexamethasone inhibited, NGF mRNA synthesis in these cells. Serum induction was preceded by a rapid and transient activation of the c-fos protooncogene.     

Single-Step Purification and Biological Activity of Human Nerve Growth Factor Produced from Insect Cells

Human nerve growth factor (NGF) was cloned and engineered for expression in a baculovirus-infected Spodoptera frugiperda (SF-9) insect cell system. Culture supernatants contained 2-3 mg/L of recombinant human NGF. The human NGF produced by this system was purified to apparent homogeneity with a single-step affinity chromatography procedure using a high-affinity monoclonal antibody originally raised against murine NGF. The purification procedure yielded 1-2 mg of pure, human NGF per liter of culture supernatant; i.e., approximately 60% recovery of the human NGF originally released into the culture medium. Although the gene transfected into the SF-9 cells coded for pro-NGF, the NGF recovered after purification was greater than 95% fully processed, mature protein. The KD for the affinity of the pure, recombinant human NGF for NGF receptor in PC12 membranes is 0.20 +/- 0.05 nM. Activation of neurite outgrowth in PC12 cells occurs with ED50 values of 85 +/- 20 pM and 9.6 +/- 1.5 pM for a 3-day primary response and a 1-day secondary response, respectively. The pure, recombinant human NGF also stimulates a significant increase in dopamine content of PC12 cells with an ED50 of 5.8 +/- 2.7 pM. These binding and biological activation properties are consistent with values observed using murine NGF purified from submaxillary glands.     

Identification and characterization of a new family of high-affinity receptors for Escherichia coli heat-stable enterotoxin in rat intestinal membranes.

Novel high-affinity, low-capacity binding sites in intestinal membranes for the heat-stable toxin produced by Escherichia coli have been defined. The appearance of these sites is observed in the presence of physiological concentrations of NaCl in binding reactions. Scatchard analyses of equilibrium binding in the absence of NaCl demonstrated a single class of binding sites with KD = 1.9 x 10(-9) M and Bmax = 0.75 pmol/mg of protein. In contrast, similar experiments in the presence of NaCl demonstrated, in addition to the previously described low-affinity site, a high-affinity site with a KD of 2.1 x 10(-11) M and a Bmax of 73 fmol/mg of protein. Confirmation of the presence of high- and low-affinity sites was obtained in studies of the kinetics of ST binding. These sites exhibited similar dissociation but markedly different association kinetics. Determination of the association and dissociation constants permitted calculation of the KD's for the high- and low-affinity sites, which were 1.15 x 10(-11) M and 1.89 x 10(-9) M, respectively. These data agree closely with those obtained in studies of equilibrium binding. Furthermore, similar values for the KD's of these sites were obtained in experiments of competitive displacement of labeled ST, confirming the presence of two receptors for this toxin. Binding of ST to high-affinity sites is completely reversible and does not appear to be coupled to activation of particulate guanylate cyclase. In contrast, binding of ST to low-affinity sites appears to be partially reversible and may be coupled to activation of guanylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of nerve growth factor binding to cultured neural crest cells: evidence of an early developmental form of the NGF receptor

Cultured neural crest cells undergoing differentiation have been shown to contain a subpopulation of cells with specific receptors for nerve growth factor (NGF). These cells are the potential targets of NGF during differentiation and development. This study was done to pharmacologically characterize the binding of NGF to long-term (1- to 3-week) cultures of quail neural crest cells. The data indicate that 125I-NGF binding was specific and saturable, with less than 20% nonspecific binding. Scatchard analysis revealed the presence of one type (class) of receptors with a binding constant (Kd) similar to that of the low-affinity binding site described for embryonic dorsal root and sympathetic ganglia (approximately 3.2 nM). This was corroborated by displacement experiments (Kd of 1.3 nM), in which 125I-NGF binding was measured in the presence of increasing concentrations of nonradioactive NGF. In addition, affinity labeling revealed that the 125I-NGF-receptor complex had a molecular weight of about 93K, characteristic of the low-affinity NGF receptor of PC12 cells. The NGF receptor of cultured neural crest cells was trypsin-sensitive, as is typical of the low-affinity NGF binding sites. These findings indicate that differentiating neural crest cells lack high-affinity 125I-NGF binding sites. In contrast, embryonic dorsal root and sympathetic ganglia cells, known NGF targets, have both high- and low-affinity receptors. Measurements of the differential release of surface-bound 125I-NGF indicated that a relatively small amount (about 14%) of NGF is internalized over a 1-hr period. Cultured neural crest cells which bear NGF receptors were also shown by light microscopic radioautographic techniques to incorporate [3H]thymidine. I suggest, therefore, that cultured neural crest cells which have not terminally differentiated, as judged by morphological criteria and continued proliferation, may express an early developmental form of the NGF receptor.     

Structure and developmental expression of the chicken NGF receptor

The nucleotide and deduced amino acid sequence of a cDNA clone of the chicken NGF receptor (NGFR) is reported and is compared with sequences of mammalian NGF receptors. A model is presented in which monodentate or bidentate binding of NGF dimers to repeated cysteine-rich sequence elements of the receptor yields low- or high-affinity NGF binding, respectively. In situ hybridization is used to characterize expression of NGFR in developing chick from 40 hr to 10 days of embryogenesis. NGFR mRNA expression is detected in premigratory neural crest cells, in epibranchial placode cells, and in all sensory, sympathetic and parasympathetic derivatives of these structures. In the embryonic CNS, NGFR mRNA is detected in the mantle zone but not the periventricular germinal zone throughout most of the neural tube. By Embryonic Day 8, NGFR mRNA is detected in a substantial fraction of cells in every brain region, with highest levels present in developing motor neurons. NGFR mRNA also is transiently expressed in many mesenchymal cell populations including cells in branchial arch, sclerotome, muscle anlagen, and feather follicles. The functional significance of wide-spread embryonic expression of the NGF receptor is discussed.     

Identification of high- and low-affinity NGF receptors during development of the chicken central nervous system

In order to study regulation of the nerve growth factor (NGF) receptor during embryogenesis in chick brain, we have used affinity crosslinking of tissues with 125I-NGF. NGF interacts with high- and low-affinity receptors; high-affinity receptors are required for the majority of NGF's actions. Most measurements of receptor levels do not distinguish between high- and low-affinity forms of the receptor. We have used the lipophilic crosslinking agent HSAB to identify the high-affinity, functional receptor during development of the chicken central nervous system. A peak of expression during Embryonic Days 5-10 was detected in all regions of the chicken central nervous system, but, shortly after birth, only the cerebellar region displays significant levels of NGF receptor protein. The time course of expression confirms the dramatic regulation of the NGF receptor gene during defined embryonic periods. The detection of high-affinity NGF receptors in brain and neural retina provides strong evidence that NGF is involved in essential ontogenetic events in the development of the chicken central nervous system.