Properties of the Specific Binding of 125I-Nerve Growth Factor to Responsive Peripheral Neurons

Production of a Monoclonal Antibody Directed against the High-Affinity Nerve Growth Factor Receptor

The high-affinity nerve growth factor receptor corresponds to the tyrosine protein kinase encoded by the proto-oncogene trkA. Different findings suggest that nerve growth factor (NGF) can be operative in the growth modulation of tumor cell lines possessing high-affinity binding sites for this molecule. Using as immunizing material the SKNBE neuroblastoma cell line transfected with proto-trkA we produced a monoclonal antibody (MAb) able to recognize the high-affinity nerve growth factor receptor. The selected MAb, designated MGR12, is directed against an epitope present on the extracellular domain of the receptor since it showed reactivity on living trkA-expressing cells and was able to immunoprecipitate the proto-trkA molecule. The MGR12 MAb is directed against a non-functional epitope since it neither inhibited NGF binding nor induced receptor internalization. This new reagent appears to be an appropriate tool for analyzing the expression of high-affinity nerve growth factor receptor in tumors of different origin and for elucidating its involvement in tumor progression.

Nerve Growth Factor and Related Substances: A Brief History and an Introduction to the International NGF Meeting Series

Nerve growth factor (NGF) is a protein whose importance to research and its elucidation of fundamental mechanisms in cell and neurobiology far outstrips its basic physiological roles. It was the first of a broad class of cell regulators, largely acting through autocrine and paracrine interactions which will be described herein. It was of similar significance in establishing the identity and unique roles of neurotrophic factors in the development and maintenance of the peripheral and central nervous systems. Finally, it contributed to many advances in the elaboration of cell surface receptor mechanisms and intracellular cell signaling. As such, it can be considered to be a “molecular Rosetta Stone”. In this brief review, the highlights of these various studies are summarized, particularly as illustrated by their coverage in the 13 NGF international meetings that have been held since 1986.

An Optimized Procedure for the Site-Directed Labeling of NGF and proNGF for Imaging Purposes

Neurotrophins are growth factors of fundamental importance for the development, survival and maintenance of different neuronal and non-neuronal populations. Over the years, the use of labeled neurotrophins has helped in the study of their biological functions, leading to a better understanding of the processes that regulate their transport, traffic, and signaling. However, the diverse and heterogeneous neurotrophin labeling strategies adopted so far have often led to poorly reproducible protocols and sometimes conflicting conclusions. Here we present a robust, reliable, and fast method to obtain homogeneous preparations of fluorescent proNGF and NGF with 1:1 labeling stoichiometry. This strategy is well suited for several applications, ranging from advanced imaging techniques such as single particle tracking, to analyses that require large amounts of neurotrophins such as in vivo monitoring of protein biodistribution. As a proof of the quality of the labeled NGF and proNGF preparations, we provide a quantitative analysis of their colocalization with proteins involved in the signaling endosome function and sorting. This new analysis allowed demonstrating that proNGF localizes at a sub-population of endosomes not completely overlapped to the one hosting NGF.

The biological functions and signaling mechanisms of the p75 neurotrophin receptor

The p75 neurotrophin receptor (p75(NTR)) regulates a wide range of cellular functions, including programmed cell death, axonal growth and degeneration, cell proliferation, myelination, and synaptic plasticity. The multiplicity of cellular functions governed by the receptor arises from the variety of ligands and co-receptors which associate with p75(NTR) and regulate its signaling. P75(NTR) promotes survival through interactions with Trk receptors, inhibits axonal regeneration via partnerships with Nogo receptor (Nogo-R) and Lingo-1, and promotes apoptosis through association with Sortilin. Signals downstream of these interactions are further modulated through regulated intramembrane proteolysis (RIP) of p75(NTR) and by interactions with numerous cytosolic partners. In this chapter, we discuss the intricate signaling mechanisms of p75(NTR), emphasizing how these signals are differentially regulated to mediate these diverse cellular functions.

Dietary carnitine supplements slow disease progression in a putative mouse model for hereditary ceroid-lipofuscinosis

The childhood ceroid-lipofuscinoses are a group of autosomal recessively inherited disorders characterized by massive accumulation of autofluorescent lysosomal storage bodies in neurons as well as other cell types. The storage body accumulation is accompanied by severe degeneration of the central nervous system that results in blindness, cognitive and psychomotor degeneration, and premature death. On the basis of pathologic and biochemical criteria, a hereditary disease in the mnd mouse strain has been proposed as a model for certain types of human ceroid-lipofuscinosis. Experimental evidence suggests that the storage body accumulation in humans with juvenile and late-infantile ceroid-lipofuscinosis is linked to altered carnitine biosynthesis. On the basis of the latter observation, a study was performed to determine whether dietary carnitine supplements could slow the disease progression in the mnd mouse model. Carnitine supplementation begun at 4 weeks of age did not slow the retinal degeneration that is characteristic of this disease. It did, however, significantly elevate brain carnitine levels, slow the accumulation of autofluorescent storage bodies in brain neurons, and prolong the lifespans of the treated animals. These findings suggest that there is a link between carnitine biosynthesis and the disease pathology and indicate that carnitine supplementation may be beneficial in slowing the disease progression in humans with certain types of hereditary ceroid-lipofuscinosis.

Nerve growth factor immunoreactivity and sympathetic sprouting in the rat hippocampal formation

Several lines of evidence support a role for nerve growth factor (NGF) in the sympathetic sprouting response that occurs following septal cholinergic denervation of the rat hippocampal formation. The present study was undertaken to compare the distribution of NGF-like immunoreactivity and the topography of sympathetic sprouting in rats receiving medial septal lesions. Comparisons were made using adjacent sections of the hippocampal formation stained either for NGF-like immunoreactivity or for NGF receptor-immunoreactivity (p75, to visualize sympathetic fibers). p75-immunoreactive sympathetic axons were localized within the same regions exhibiting NGF-like staining, i.e., the hilus of the dentate gyrus and stratum lucidum in the CA3 area. Furthermore, the sympathetic fibers that invaded the hippocampal formation exhibited NGF-like immunostaining. These results provide additional evidence in support of NGF's role in this collateral sprouting response in the mature rat CNS.

Cellular mechanisms of signal transduction for neurotrophins

The molecular cloning of new neuroactive growth factors and their receptors has greatly enhanced our understanding of important interactions among receptors and signaling molecules. These studies have begun to illuminate some of the mechanisms that allow for specificity in neuronal signaling. Model cell systems, such as the PC-12 pheochromocytoma cell line, express receptors for these different neurotrophic factors, leading to comparisons of signaling pathways for these factors. Upon binding their ligands, these receptors undergo phosphorylation on tyrosine residues, which directs their interaction with signaling proteins containing src homology (SH2) domains, sequences that mediate associations with tyrosine-phosphorylated proteins. These SH2 proteins translate the tyrosine kinase activity of receptors into downstream events that result in the specific cellular response. Investigations such as these have revealed that molecular specificity in signaling pathways may arise from combinatorial diversity in interactions between receptors and key regulatory proteins.

The neurotrophins and their receptors: structure, function, and neuropathology

The neurotrophins are a family of polypeptides that promote differentiation and survival of select peripheral and central neurons. Nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3, neurotrophin-4, and neurotrophin-5 are included in this group. In recent years, tremendous advances have been made in the study of these factors. This has stimulated our review of the field, characterizing the neurotrophins from initial isolation to molecular analysis. The review also discusses their synthesis, localization, and responsive tissues, in both the periphery and CNS. The complex receptor interactions of the neurotrophins are also analyzed, as are putative signal transduction mechanisms. Discussion of the observed and postulated involvement in neuropathological disorders leads to the conclusion that the neurotrophins are involved in the function and dysfunction of the nervous system.

Early embryonic quail dorsal root ganglia exhibit high affinity nerve growth factor binding and NGF responsiveness--absence of NGF receptors on migrating neural crest cells

Dorsal root ganglia (DRG) midway through development require nerve growth factor (NGF) for survival and differentiation. These studies investigated when avian neural crest cells or DRG first exhibit high affinity NGF receptors in situ, and whether early embryonic cells expressing high affinity NGF receptors are responsive to NGF. Unfixed cryostat sections of quail embryos were exposed to varying concentrations of [125I]NGF to distinguish between high and low affinity binding. Radioautography revealed an absence of [125I]NGF binding on migrating neural crest cells in situ. Both high and low affinity NGF receptors were first detected in differentiating DRG at E3.5 (stage 23). The presence of high affinity receptors was additionally confirmed by identification of a high molecular weight complex on radioautographs of gels following cross-linking of [125I]NGF to dissociated DRG. The presence of high affinity NGF receptors in E3.5 DRG was unexpected since DRG have been reported to be unresponsive to NGF prior to the midpoint of development. Exposure of E3.5 DRG neuron-enriched cultures to exogenous NGF resulted in approximately 30% more neurons after 24 h in vitro. The effect of NGF was blocked by anti-NGF and was shown to be dose dependent. It remains to be determined whether the increase in cell number is due to a survival or mitogenic effect.

Pleiotropic signaling from receptor tyrosine kinases

The molecular cloning of genes encoding new neuroactive growth factors and their receptors has greatly enhanced our understanding of important interactions between receptors and signaling molecules. These studies have begun to illuminate some of the mechanisms that allow for specificity in neuronal signaling.

Stimulation of nerve growth factor receptors in PC12 by acetyl-L-carnitine

Acetyl-L-carnitine (ALCAR) prevents some deficits associated with aging in the central nervous system (CNS), such as the aged-related reduction of nerve growth factor (NGF) binding. The aim of this study was to ascertain whether ALCAR could affect the expression of an NGF receptor (p75NGFR). Treatment of PC12 cells with ALCAR increased equilibrium binding of 125I-NGF. ALCAR treatment also increased the amount of immunoprecipitable p75NGFR from PC12 cells. Lastly, the level of p75NGFR messenger RNA (mRNA) in PC12 was increased following ALCAR treatment. These results are in agreement with the hypothesis that there is a direct action of ALCAR on p75NGFR expression in aged rodent CNS.

Nerve growth factor receptor immunostaining in the spinal cord and peripheral nerves in amyotrophic lateral sclerosis

In animal experiments, nerve transection is followed by expression of nerve growth factor receptors (NGFR) on Schwann cells of both motor and sensory nerve fibres distally to the site of the lesion. To determine whether denervated Schwann cells in amyotrophic lateral sclerosis (ALS) similarly express NGFR, a study was made of post-mortem material of peripheral nerves and ventral roots from ALS cases and age-matched controls, using immunolabelling methods. Dorsal roots and spinal cords were also examined for the presence of NGFR. In all the ALS cases and controls, NGFR immunostaining was seen in the outer layer of vessel walls, perineurial sheaths, connective tissue surrounding fascicles in nerve roots and in the substantia gelatinosa of the spinal cord. In ALS, NGFR staining was also present in the Schwann cells of degenerated nerve fibres in mixed peripheral nerves, in ventral roots and, to a lesser extent, in dorsal roots. NGFR immunoreactivity was also seen in elongated cells extending from the perifascicular connective tissue into the nerve fascicles. It is concluded that denervated Schwann cells in ALS express NGFR and that NGFR immunostaining on Schwann cells may be used as an indicator of axonal degeneration. The NGFR labelling in the dorsal roots supports the notion that ALS is not a pure motor syndrome.

Evidence that biological activity of NGF is mediated through a novel subclass of high affinity receptors

Trophic factors, such as NGF, regulate survival and differentiation of many classes of neurons by binding specific receptors. Two types of NGF receptors have been identified, which bind NGF with low and high affinity. The latter mediates the major biological actions of NGF. To determine the relationship between these two receptor types, polyclonal antibodies to the low affinity receptor have been prepared and used in ligand-binding, ligand-cross-linking, and biological assays. These antibodies eliminated binding of NGF to low affinity receptors and to one class of high affinity receptors, but did not prevent binding to a second class of high affinity receptors. The same antibodies did not inhibit NGF-stimulated neuronal survival or neurite outgrowth. Thus, a biologically important class of high affinity NGF receptors is antigenically distinct from the low affinity receptor and may be encoded by a novel gene.

Nerve growth factor receptor in tumours of the human nervous system. Immunohistochemical analysis of receptor expression and tumour growth fraction

The expression of nerve growth factor receptor (NGFr) was investigated by means of immunohistochemistry in 135 tumours of the human central and peripheral nervous system. The results were compared to the proliferative activity of the tumours as determined by immunostaining for the proliferation-associated antigen Ki-67. Immunoreactivity for NGFr was most consistently observed in tumours derived from the neural crest such as neurinomas, neurofibromas and ganglioneuromas. In tumours of the central nervous system, NGFr-immunostaining was particularly strong in pilocytic astrocytomas while the majority of other gliomas were either NGFr-negative or contained only a minor fraction of NGFr-positive tumour cells. Among all other investigated tumours including medulloblastomas, pituitary adenomas and meningiomas only exceptional cases demonstrated a significant number of positive tumour cells. Choroid plexus papillomas and metastatic carcinomas were always NGFr-negative. Our results indicate that NGFr-expression in tumours of the human nervous system is heterogenous with respect to tumour type and appears to be unrelated to proliferative activity.

Localization of the nerve growth factor receptor on fetal human Schwann cells in culture

Previous studies have established that Schwann cells (SC) in culture express an NGF receptor. In this study, cultures of fetal human SC were established from fetal nerves and various light microscopic (LM) and electron microscopic (EM) techniques were used to localize the NGF receptor on the SC. Results indicate that NGF receptor is localized to the plasma membrane of the SC. Quantitative digital analysis determined that the distal portion of the SC process had high concentrations of NGF receptor. The possible functional significance of this latter observation is discussed in terms of SC migration and ensheathment of axons.

Characteristics and displaceability of neurotensin binding sites in the rat cerebral cortex and corpus striatum

1. Neurotensin binding to synaptosomes isolated from the rat cerebral cortex and corpus striatum reached saturation after 4 min of incubation. 2. The rates of binding were found to be higher in the corpus striatum than in the cerebral cortex. 3. Concentration study revealed the presence of two different and independent classes of neurotensin binding sites with a negative cooperative interaction within each class of binding sites. 4. At saturation levels, the low affinity binding component was found to have a flat regional difference, while the high affinity binding component showed regional differences in terms of maximal binding capacity, suggesting a higher number of high affinity binding sites in the striatum than in the cortex. 5. In the competition related experiments, dopamine was found to displace around 70% of neurotensin binding sites in the corpus striatum and the cerebral cortex. 5. Substance P displaced around 50% of [3H]neurotensin in the cerebral cortex. Whereas, 50% and 70% displacement were observed in the striatum at high and low affinity binding sites, respectively. 6. These results show the overlap in the binding sites of neurotensin, dopamine and substance P.

Catecholaminergic cells and support cell precursors in neural crest cultures differentially express nerve growth factor receptors

Long-term neural crest cultures grown in the continuous absence of exogenous nerve growth factor (NGF) contain a subpopulation of cells with NGF receptors exclusively of the low affinity subtype (Kd of approximately 3.2 nM). The current studies combined immunocytochemistry, using GIN1 (a support cell marker) or tyrosine hydroxylase antibodies, with radioautography following exposure to iodinated nerve growth factor (125I-NGF). The majority of cells specifically binding 125I-NGF were found to be immunoreactive for GIN1, indicating that the primary cell phenotype expressing receptors for NGF appear to be support cell precursors, at least under these conditions. These cells are likely to be responsive to and/or dependent upon NGF; the nature of this response or dependency remains to be determined. Some cells exhibiting silver grains were not immunoreactive for GIN1, suggesting that other cell phenotypes in neural crest cultures also have NGF receptors. In addition, some neural crest cells were found that stained with GIN1 and lacked 125I-NGF binding. Tyrosine hydroxylase-like immunoreactive cells apparently did not bind 125I-NGF under these culture conditions. Catecholaminergic sympathetic and sensory neurons from embryonic ganglia, derived from the neural crest, express both the high and low affinity forms of the NGF receptor. In order to determine whether the microenvironment played a role in the type of catecholaminergic cells appearing in culture, neural crest cells were grown in the continuous presence of exogenous NGF. Under these conditions, many tyrosine hydroxylase-like immunoreactive cells were found that specifically bound 125I-NGF. In addition, silver grains were still detected on these cells following a chase with nonradioactive NGF, designed to eliminate 125I-NGF bound to low affinity sites. Therefore, the catecholaminergic cells possess both the low and high affinity forms of the receptor. NGF's ability to modulate tyrosine hydroxylase activity, as it does in mature catecholaminergic neurons, was tested in this system. Surprisingly, there was no statistically significant difference in tyrosine hydroxylase activity in cultures grown in the absence or presence of exogenous NGF. This raises the possibility that embryonic catecholaminergic cells are unable to respond to NGF in this specific way, even though the receptors for the factor are present.

Developmental and regional expression of beta-nerve growth factor receptor mRNA in the chick and rat

Hybridization probes from the transmembrane region of the chick NGF receptor (NGF-R) that show high homology with the rat NGF-R were used to demonstrate an abundant 4.5 kb NGF-R mRNA in the chick embryo at E3.5. The level remained high until E12 but decreased to adult levels by E18. The highest levels at E8 were in spinal cord, bursa of Fabricius, gizzard, femoralis muscle, and skin. In situ hybridization to E7 embryos showed high expression of the NGF-R gene in spinal cord, particularly the lateral motor column, and in dorsal root, sympathetic, and nodose ganglia. NGF-R mRNA expression was observed throughout brain development and in all regions of the adult brain, with high levels in cerebellum and septum. Lymphoid tissues of chick and rat also expressed the receptor. The complex and widespread expression of NGF-R mRNA in areas not known to be NGF targets suggests broader functions for NGF.

Nerve growth factor receptors in human neuroblastoma cells

Receptors for the nerve growth factor protein (NGFR) present in the human neuroblastoma cell line LAN-1 were characterized. LAN-1 cells display high-affinity (type I, with KD value of 5.9 X 10(-11) M) and low-affinity (type II, with KD value of 9.2 X 10(-9) M) binding to NGF. NGFR were fractionated by preparative isoelectric focusing in a granulated gel (PEGG). High-affinity binding was found in the 5.9-6.2 pH region of the PEGG, and low-affinity binding in the 4.6-4.8 and 8.8-9.3 pH ranges. After further analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) we observed both 92.5- and 200-kDa molecular species associated with NGF binding activity. The 200-kDa protein was found in fractions displaying high-affinity NGF binding and the 92.5-kDa protein in fractions displaying low-affinity NGF binding. Equilibrium binding analysis of NGF in PEGG fractions confirmed the presence of two specific saturable binding sites with KD values similar to those observed for whole dissociated cells. When NGFR II activity from the acidic region of the PEGG chromatogram was incubated with NGFR II from the basic region of the PEGG chromatogram, there was no change in NGF binding or in the number of apparent NGF receptors. However, incubation of these same fractions with a fraction having only NGFR I showed an apparent increase in high-affinity NGF binding and a decrease in low-affinity NGF binding. Immunoprecipitation of this "mixed" fraction and analysis on SDS-PAGE under reduced and nonreduced conditions showed 200-kDa and 92.5-kDa proteins under nonreduced conditions and a 92.5-kDa protein under reduced conditions. Our findings are consistent with the hypothesis that there are two distinct NGF receptors in NGF-responsive cells. The interconvertibility of low- and high-affinity receptors and the possible existence of a modulator type protein or of "silent" type receptors are also in agreement with our findings.

Loss of nerve growth factor receptors in sympathetic ganglia from aged mice

[125I]-Nerve growth factor (NGF) binding was studied in superior cervical ganglia from mice 4-7 months and 24-27 months of age. Scatchard analysis demonstrated losses of both high and low affinity components of NGF receptor. These results indicate loss of NGF receptors may lead to the diminished responsiveness to NGF in aged sympathetic ganglion neurons.

Neuron-like cells in long-term neural crest cultures are not targets of nerve growth factor

It has been shown previously that a subpopulation of long-term (7-14 days) cultured neural crest cells undergoing differentiation possesses receptors for nerve growth factor (NGF). These cells are likely to be targets of NGF during the early stages of embryonic development. This study was conducted to determine whether cells exhibiting neuron-like characteristics (i.e. process formation, presence of putative neurotransmitters) in neural crest cultures have NGF receptors. This was accomplished by combining 125I-NGF radioautography and immunocytochemistry using antibodies against tyrosine hydroxylase, serotonin, and vasoactive intestinal polypeptide. Examination of light microscopic radioautographs revealed that none of the neuron-like cells with tyrosine hydroxylase-like, serotonin-like, or vasoactive intestinal polypeptide-like immunoreactivity bound 125I-NGF, and, therefore, do not possess NGF receptors. It is not known whether the lack of NGF receptors on neuron-like cells is due to the early developmental stage of these cells, or is caused by a difference in the microenvironment in vitro as compared to in vivo. The identity of the cultured neural crest cells which do possess NGF receptors remains to be determined.

Age-dependent differences in 125I-nerve growth factor binding properties of rat adrenal chromaffin cells

Nerve growth factor (NGF) has been shown to influence survival, morphology, and transmitter phenotype of young postnatal rat chromaffin cells in vitro. Significant differences in NGF responses of chromaffin cells from newborn rats compared to 8-10-day-old ones have been reported. For this reason we studied equilibrium binding and dissociation kinetics of 125I-NGF on newborn (D1) and 10-day-old (D10) rats. Under equilibrium conditions no differences were found between the two cell types, with respect to dissociation constant (approximately 2.5 X 10(-9) M) and receptor number (10-22,000 per cell). In dissociation experiments D10 chromaffin cells exhibited two classes of NGF receptors, similar to those found in other NGF-responsive cells. From fast receptors 125I-NGF was released rapidly both at 4 degrees C and at 37 degrees C, whereas dissociation from "slow" receptors was observed only at 37 degrees C. The slow receptor class was not found on D1 cells. Instead, more than 50% of specifically bound 125I-NGF did not dissociate in the presence of excess unlabeled NGF at 37 degrees C. These age-dependent differences seem to indicate regulatory developmental changes in NGF-binding properties of rat chromaffin cells.

Neural crest-derived proprioceptive neurons express nerve growth factor receptors but are not supported by nerve growth factor in culture

The neural crest-derived, first-order, sensory neurons of the embryonic chick trigeminal mesencephalic nucleus were grown in dissociated, glia-free culture. Whereas brain-derived neurotrophic factor promoted the survival and growth of the majority of these neurons (over 70% after 48 h incubation), nerve growth factor had no effect on their survival. The percentage survival in cultures supplemented with nerve growth factor at concentrations ranging from 0.2 to 625 ng/ml was only 2%, the same percentage survival as in control cultures. Furthermore, nerve growth factor did not change the dose-response of these neurons to brain-derived neurotrophic factor. Although nerve growth factor did not influence the survival of trigeminal mesencephalic neurons in culture, nerve growth factor specifically bound to the great majority of neurons growing in the presence of brain-derived neurotrophic factor. Autoradiographs of cultures incubated with iodinated nerve growth factor showed that the perikarya and processes of neurons were heavily labelled with silver grains. These findings demonstrate the existence of a population of neural crest-derived sensory neurons which express nerve growth factor receptors but are not supported by nerve growth factor in culture.

Expression and structure of the human NGF receptor

The nucleotide sequence for the human nerve growth factor (NGF) receptor has been determined. The 3.8 kb receptor mRNA encodes a 427 amino acid protein containing a 28 amino acid signal peptide, an extracellular domain containing four 40 amino acid repeats with six cysteine residues at conserved positions followed by a serine/threonine-rich region, a single transmembrane domain, and a 155 amino acid cytoplasmic domain. The sequence of the extracellular domain of the NGF receptor predicts a highly ordered structure containing a negatively charged region that may serve as the ligand-binding site. This domain is conserved through evolution. Transfection of a full-length cDNA in mouse fibroblasts results in stable expression of NGF receptors that are recognized by monoclonal antibodies to the human NGF receptor and that bind [125I]NGF.

Disulfide bond formation between nerve growth factor and the nerve growth factor receptor from embryonic sensory neurons

Recent studies with sympathetic neurons using radiolabeled nerve growth factor have indicated that a high-molecular-weight covalent complex is formed. This complex is between the nerve growth factor and the high-affinity (type I) receptor and occurs through the formation of a disulfide bond. Studies presented in the present article demonstrate a similar complex is formed on chicken embryonic sensory neurons. The formation of this complex is inhibited by the addition of unlabeled nerve growth factor, metabolic energy inhibitors (dinitrophenol and NaF), and of sulfhydryl reagents. On the other hand, formation of this complex is not inhibited by temperature, or by the addition of insulin or epidermal growth factor. The receptor involved in the covalent complex formation is the high-affinity (type I) receptor. The molecular weight of this complex is approximately 232,000 daltons. Evidence indicates that this covalent complex may be required for the biological activity of the nerve growth factor.

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.

Phenylmethylsulfonyl fluoride (PMSF) inhibits nerve growth factor binding to the high affinity (type I) nerve growth factor receptor

Dorsal root ganglia were extirpated from 9-day old embryonic chickens and solubilized in phosphate buffered saline containing 0.5% Noniodet P 40 detergent. When nerve growth factor binding studies are performed on these samples, the expected curvilinear Rosenthal (Scatchard) plot is obtained. However, when the solubilized cell sample is made 1-2 mM in phenylmethylsulfonyl fluoride and nerve growth factor binding is determined, a linear Rosenthal (Scatchard) plot is obtained. The equilibrium dissociation constant obtained from the slope of the line is 1.9 X 10(-9) M, identical to the equilibrium dissociation constant of the low affinity receptor. A similar phenomenon is observed when rat pheochromocytoma cells are solubilized in the non-ionic detergent and nerve growth factor binding is determined. No high affinity binding can be detected for either cell type when detergent solubilized cells are incubated with phenylmethylsulfonyl fluoride.

Characterization of two angiotensin II binding sites in cultured mouse spinal cord neurones

Characteristics of angiotensin II (AII) binding have been determined in cultured mouse spinal cord neurones using [125I]AII and [3H]AII. The Scatchard plot of equilibrium binding was curvilinear and could be described by postulating the existence of two different classes of independent binding sites (Kd1 = 0.43 nM, Bmax1 = 12.5 fmol/1.5 X 10(6) cells; Kd2 = 25.6 nM, Bmax2 = 220 fmol/1.5 X 10(6) cells). These values are in close agreement with the Kd values obtained from kinetic studies. The high affinity binding sites appeared to be similar to the single class of sites described in other studies. The relative inhibition potency of AII-related peptides was studied. Sar1,-Leu8-AII was the most potent in inhibiting specific AII binding. The characteristics of the two AII binding sites suggest that they correspond to two receptors as described in a previous electrophysiological approach using this model in our laboratory. Taken together, these data confirm that this model of neurones in primary culture is a unique and very attractive model of receptor studies. The classical criteria necessary for positive identification of a ligand-receptor have been satisfied: saturability, reversibility, specificity and most importantly correlation of the binding parameters and biological effects of AII.

Characterization of functional receptors for vasoactive intestinal peptide in bovine cerebral arteries

This study reports the characterization of receptors for vasoactive intestinal peptide (VIP) on membranes prepared from bovine cerebral arteries. By use of HPLC we prepared two purified monoiodinated VIP radioligands with nearly equivalent cerebral vasorelaxant potency as native VIP, [Tyr(125I)10 )VIP and [Tyr(125I)22]VIP. The former resulted in a higher proportion of specific binding to arterial membranes than the latter and was therefore thought to be the superior radioligand for receptor characterization. The binding of [Tyr(125I)10]VIP to cerebral arterial membranes was saturable, specific, reversible, and dependent on time and temperature. Scatchard analysis suggested the presence of a high- and a low-affinity binding site with KD values of 0.2 and 11 nM and receptor concentrations of 79 and 737 fmol/mg of protein, respectively. The dose-response curves for binding to the VIP receptor by the VIP-homologous peptides PHI, PHM, and rat growth hormone-releasing factor (GRF) were very similar to their dose-response curves for relaxation of cerebral arteries. The order of potency was VIP greater than PHM greater than PHI greater than rat GRF. It is suggested that the characteristics of the vascular VIP binding sites and the close correlation between the binding and vasorelaxant properties of VIP and its related peptides argue for the vascular binding sites being functional receptors for VIP.

Improved procedure for the purification of an iodinated protein: beta nerve growth factor

An improved procedure for the isolation of iodinated beta Nerve Growth Factor (125I-beta NGF) has been devised. Use of Centricon microconcentrators (Amicon) has allowed the facile and efficient recovery of ultrapure 125I-beta NGF in high yields. Centricon microconcentrators are supplied with two molecular weight cutoffs of 10 K and 30 K daltons. beta NGF is a basic protein with a molecular weight of 26 K daltons. It is therefore possible to filter the 125I-beta NGF through the 30 K filter (30 K Filtrate) leaving behind any aggregates or reactants greater than 30 K while the 125I-beta NGF can be retained and concentrated on the 10 K filter (10 K Retentate). Any free 125I is easily removed, passing through the 10 K filter and then being discarded. In this way 125I-beta NGF can be easily purified.

Formyl peptide chemotaxis receptors on the rat neutrophil: experimental evidence for negative cooperativity

To examine the existence of negative cooperativity among formyl peptide chemotaxis receptors, steady-state binding of f Met-Leu-[3H]Phe to viable rat neutrophils and their purified plasma membranes was measured and the data were subjected to statistical analysis and to computer curve fitting using the NONLIN computer program. Curvilinear, concave upward Scatchard plots were obtained. NONLIN and statistical analysis of the binding data indicated that a two-saturable-sites model was preferable to a one-saturable-site model and statistically valid by the F-test (P less than .010). In addition, Hill coefficients of 0.80 +/- 0.02 were obtained. Kinetic dissociation experiments using purified plasma membranes showed evidence of site-site interactions of the destabilizing type (negative cooperativity). Thus, unlabeled f Met-Leu-Phe accelerated the dissociation of f Met-Leu-[3H]Phe under conditions where no rebinding of radioligand occurred. The rate of dissociation of f Met-Leu-[3H]Phe from the plasma membranes was dependent on the fold excess of unlabeled f Met-Leu-Phe used in the dilution medium; at the highest concentration tested (10,000-fold excess), the dissociation rate was more than double the dissociation rate seen with dilution alone. In addition, occupancy-dependent affinity was ascertained directly by studying the effect of increasing fractional receptor saturation with labeled ligand on the dissociation rate of the receptor-bound labeled ligand. These data showed that the f Met-Leu-[3H]Phe dissociation rate was dependent on the degree of binding site occupancy over the entire biologically relevant range of formyl peptide concentrations. Furthermore, monitoring of the time course of dissociation of the receptor/f Met-Leu-[3H]Phe receptor/f Met-Leu-[3H]Phe complex as a function of receptor occupancy revealed that receptor affinity for f Met-Leu-Phe remained occupancy-dependent during the entire time of dissociation examined (up to 10 min). Finally, the average affinity profile of the equilibrium binding data demonstrated a 60% decrease in receptor affinity in changing from the high affinity to the low affinity conformation.

Endocytosis of nerve growth factor by 'differentiated' PC12 cells studied by quantitative ultrastructural autoradiography

The endocytosis of [125I]nerve growth factor (NGF) by rat pheochromocytoma cells (PC12 line), previously exposed to the growth factor ('differentiated' or 'primed' cells), was studied by ultrastructural quantitative autoradiography. Cells previously grown in the presence of NGF were incubated at 37 degrees C with [125I]NGF for periods of up to 24 h. Under these culture conditions, PC12 cells have a rich network of neurites. At the commencement of the experiment, after incubation of cells with [125I]NGF for 1 min at room temperature, the plasma membranes of perikarya and processes showed similar levels of labeling by [125I]NGF of 0.186 +/- 0.03 grains/micron and 0.152 +/- 0.013 grains/micron respectively. The density of grains per micron of plasma membrane of perikarya reached a plateau between 15 min to 2 h of incubation of cells at 37 degrees C with [125I]NGF (0.58 +/- 0.15 grains/micron and 0.65 +/- 0.18 grains/micron, respectively). The endocytosis of [125I]NGF in perikarya of cells incubated for 6 h at 37 degrees C was studied by the 'mask' analysis method of Salpeter et al.22. At this time, the greatest amount of endocytosis was observed, corresponding to 28.4% of total grain counts. The following optimized computed source densities, or relative specific activities +/- standard errors of measurement (S.E.M.), were obtained: plasma membrane, 16.52 +/- 0.86; multivesicular bodies, 9.58 +/- 2.84; endosomes, 5.00 +/- 0.97; smooth vesicles and tubules, 1.66 +/- 0.38; lysosomes, 1.13 +/- 0.20; mitochondria, 0.46 +/- 0.10; nuclear membranes or envelopes, 0.32 +/- 0.14; nuclei, 0.06 +/- 0.01; the Golgi apparatus, 0.08 +/- 0.06; and other cytoplasmic elements 0.07 +/- 0.03. Our findings indicate that smooth vesicles and tubules, endosomes, multivesicular bodies and lysosomes are part of the pathway(s) of endocytosis of NGF, while all other cytoplasmic and nuclear elements, including the nuclear membrane, are not. The heavy plasma membrane labeling of NGF and the relatively low degree of its endocytosis are consistent with the hypothesis that the NGF action is mediated through plasma membrane activated second messenger(s).

Positive co-operativity in the membrane receptor mediated response

In a hormonal system stimulated by one of the known hypothalamic peptides, gonadotropin releasing hormone (GnRH), the biological response seen, when physiologically called for, may be positively co-operative, showing as well the expected dynamics due to a singular or continuing stimulus. Mediation is by a receptor protein which in purified form shows positively co-operative binding and specifically aggregates in solution in the presence of the hypothalamic peptide. An introduced simple amplification receptor model encompassing both kinetic and structural features is based on known biological and biochemical parameters of the hormonal system. A novel feature of the model is an obligatory presence on a cell, at given times, of characteristic molecular forms (assemblies of various order) which all must be fully occupied as a condition of (1) their nontransient existence and (2) stimulus mediated effects. The model relates temporal changes in assemblies' occupancy, conformation and affinity to ligand concentration. It provides for sigmoid dose response curve.

Binding constants of isolated NGF-receptors from different species

It is known that NGF-responsive cells bind NGF at cell surface receptors in a specific and saturable fashion and there are two separate kinds of receptor-ligand binding interactions as judged by Rosenthal analyses. Following isolation of nerve growth factor receptors from embryonic chicken sensory ganglia, rat pheochromocytoma cells and human neuroblastoma cells, equilibrium binding studies were carried out and two different equilibrium binding constants similar to that described for whole cells were determined. This evidence is consistent with the hypothesis that there are two different receptors for NGF which have been conserved.

The nerve growth factor receptor on PC12 cells: interconversion between two forms with different binding properties

PC12 cells possess two classes of nerve growth factor (NGF) receptors on their surfaces which can be distinguished by kinetic criteria. The majority class binds and releases 125I-NGF at a relatively rapid rate and has been called fast. The second class of receptors has been called slow because of relatively slower rates of binding and release of 125I-NGF, and also may be distinguished from fast receptors by their cytoskeletal association and resistance to trypsin. PC12 cell plasma membranes were prepared and shown to have only the fast class of receptors. These membranes were fused to receptorless 3T3 cells with polyethylene glycol. The resultant fused cells were shown to possess NGF receptors, essentially all of which behave like slow receptors. Immunofluorescence microscopy was used to monitor the introduction of PC12 cell membrane and NGF receptors into 3T3 cells. Results obtained with C10-2, a monoclonal antibody specific for a major PC12 cell-surface antigen. show that up to 90% of 3T3 cells receive PC12 membrane and that the PC12 membrane becomes integrally incorporated into the 3T3 cell plasma membrane. It is suggested that an association of receptors with cytoskeleton may be involved in the conversion of fast to slow receptor behavior, and that the differing proportion of fast and slow NGF receptors in PC12 and 3T3 cells reflects the differing cytoskeletal organization of these cells.

Increased adhesion response of anaplastic glioma cells to nerve growth factor and the presence of specific receptors

A trypsin-degradable nerve growth factor (NGF) receptor associated with the phospholipid component of the surface membrane has been detected on F98 anaplastic glioma cells. NGF also bound to the nucleus of F98 cells. Bound NGF was not displaceable by insulin, cytochrome C, growth hormone, or bovine serum albumin. Specific binding of NGF occurred with a Kd of 8.79 X 10(-12) M as determined by Scatchard analysis with approximately 34,000 receptors per cell. Specific NGF binding was also evident to C6 rat glioma cells and IMR-32 human neuroblastoma cells, but not to 3T3 mouse fibroblasts. These observations coupled with previous findings suggest that the NGF receptor may be a marker found on cells of neural derivation. As little as 1 ng/ml NGF caused an increase in the adhesiveness of F98 cells to culture flasks. Increased adhesiveness could be observed in as little as 5 min and was apparent for at least 45 min. At 25 min in NGF-containing medium, 24 +/- 3% of the cells adhered to the flasks compared to 13 +/- 1% of control cells. The NGF-induced increase in adhesiveness was not duplicated by epidermal growth factor, insulin, cytochrome c, bovine serum albumin, dibutyryl cyclic AMP, or sodium butyrate. Oxidized NGF blocked the effect of native NGF, but had little or no adhesion-promoting activity itself. Pretreatment of the cells with NGF was also effective in promoting adhesion, even though nerve growth factor was not added to the binding medium. The effect of this pretreatment was reversible; when NGF-pretreated cells were grown in medium without supplemental NGF, the adhesiveness of the cells returned to control levels or lower.

Receptors for a cytotoxic lectin, abrin and their role in cell intoxication

The nature of binding of abrin to Chinese hamster ovary cells was examined in relation to the ensuing intoxication of the treated cells. Approx. 20% of [125I] abrin bound to CHO cells at 37 degree C was found to be resistant to the addition or presence of 0.1 M lactose. The extent of lactose-resistant binding depended inversely upon the temperature of incubation. Among various proteins, lectins and sugars, only non-labeled abrin could strongly inhibit the lactose-resistant binding of [125I] abrin. Lactose-resistant binding could lead to an inhibition of cellular protein synthesis and to a loss of cell viability. Abrin molecules bound at the lactose-sensitive and lactose-resistant binding sites apparently have an equal probability of being internalized by CHO cells. Binding of approx. 3.10(3) abrin molecules per CHO cell was required to elicit 50% loss of cell viability regardless of whether the binding occurs in the presence or absence of lactose. The result of a cross-linking experiment suggested that a membrane protein with an Mr of about 45 000 may be responsible for the lactose-resistant binding of abrin.

Characteristics of the association of nerve growth factor with primary cultures of rat sympathetic neurons

Long-term primary cultures of rat sympathetic neurons require NGF for survival and development. The kinetics of the interaction of 125I-NGF with sympathetic neuron cultures suggests the presence of diffusional barriers preventing a determination of true dissociation and association rate constants. Although the observed rate constants do not accurately reflect the microscopic interaction of NGF with receptor, the ratio of the observed rate constants does provide a good estimate of the KD. This value (1 X 10(-9)M) agrees with earlier steady state measurements of the KD. The association of 125I-NGF with neuronal cultures is temperature-dependent with internalization and retrograde transport occurring at 37 degrees C. The retrograde transport of 125I-NGF in compartmentalized neuronal cultures is concentration dependent and saturates at about 100 ng/ml (4 X 10(-9)M). The amount of 125I-NGF accumulated by retrograde transport appears to be increased subsequent to a period of NGF-starvation. The increase in uptake does not appear to be due to an increase in NGF receptor number since the number of binding sites is not greatly increased upon NGF starvation.