Functional involvement of mSos in interleukin-3 and thrombin stimulation of the Ras, mitogen-activated protein kinase pathway in BaF3 murine hematopoietic cells

Stimulation of the interleukin (IL)-3 receptor provokes rapid activation of the Ras pathway in various hematopoietic cell lines. Also, a wide range of G-protein-coupled receptors induce Ras activation following ligand stimulation. In this report, we investigate the mechanism underlying Ras activation upon stimulation of these two types of receptors in hematopoietic cells. Thrombin, a G-protein-coupled receptor ligand, was found to stimulate extracellular signal-regulated kinase (ERK)/mitogen-activated protein kinase (MAPK) in IL-3-dependent BaF3 cells, suggesting a significant function of thrombin receptor-mediated signaling. We show that the Ras-guanine nucleotide exchange factor mSos is indispensable for activation of the Ras pathway in IL-3- or thrombin-stimulated BaF3 cells. The activation of Ras in response to IL-3 as defined by accumulation of the GTP-bound form was impaired by conditional overexpression of a dominant-negative mutant of mSos (DeltamSos1). Furthermore, following induction of DeltamSos1, IL-3 enhancement of the kinase activities of c-Raf-1, ERK2, and JNK1 downstream of Ras was almost completely blocked. Similarly, thrombin-induced Ras-dependent ERK2 activation was diminished by DeltamSos1. However, the tyrosine phosphorylation pattern of cellular substrates upon thrombin stimulation was entirely different from the pattern of IL-3-induced tyrosine phosphorylation. Collectively, these results provide evidence that mSos plays a crucial role in both IL-3 and thrombin activation of the Ras pathway in hematopoietic cells, although molecules (including tyrosine kinases) mediating the signal to mSos are likely to be different between the two types of receptors.     

Human Sos1: a guanine nucleotide exchange factor for Ras that binds to GRB2

A human complementary DNA was isolated that encodes a widely expressed protein, hSos1, that is closely related to Sos, the product of the Drosophila son of sevenless gene. The hSos1 protein contains a region of significant sequence similarity to CDC25, a guanine nucleotide exchange factor for Ras from yeast. A fragment of hSos1 encoding the CDC25-related domain complemented loss of CDC25 function in yeast. This hSos1 domain specifically stimulated guanine nucleotide exchange on mammalian Ras proteins in vitro. Mammalian cells overexpressing full-length hSos1 had increased guanine nucleotide exchange activity. Thus hSos1 is a guanine nucleotide exchange factor for Ras. The hSos1 interacted with growth factor receptor-bound protein 2 (GRB2) in vivo and in vitro. This interaction was mediated by the carboxyl-terminal domain of hSos1 and the Src homology 3 (SH3) domains of GRB2. These results suggest that the coupling of receptor tyrosine kinases to Ras signaling is mediated by a molecular complex consisting of GRB2 and hSos1.     

Effect of hepatocyte growth factor on early human haemopoietic cell development

Hepatocyte growth factor (HGF) stimulates cell proliferation, differentiation and migration by binding to its receptor, MET R. Whether the HGF/MET R axis plays an important regulatory role in human haemopoietic cell growth is an unresolved issue. To investigate this situation, we employed several complementary strategies including RT-PCR, FACS analysis, and mRNA perturbation with oligodeoxynucleotides (ODN). We found that very primitive, FACS sorted, CD34+ Kit+ marrow mononuclear cells (MNC) failed to express RT-PCR detectable MET R mRNA. In contrast, MET R expression was easily detectable by RT-PCR in marrow stroma fibroblasts, in cells isolated from BFU-E and CFU-GM colonies, and in unselected normal MNC. Subsequent FACS analysis revealed that MET R protein was detectable on approximately 5% of the latter cells. HGF, at concentrations of 1-50 ng/ml, had no demonstrable effect on survival or cloning efficiency of normal CD34+ MNC in serum-free cultures. Antisense ODN mediated perturbation of MET R mRNA expression in normal CD34+ MNC, with FACS documented decline in protein expression, had no effect on the ability of these cells to give rise to haemopoietic colonies of any lineage. We also examined the biology of HGF/MET R expression in malignant haemopoietic cells. Using the strategies described above, we found that MET R mRNA was expressed in many human haemopoietic cell lines, and that the protein was expressed at high levels on HTLV transformed T lymphocytes. Wild-type CML and AML blast cells also expressed MET mRNA, and HGF was able to co-stimulate CFU-GM colony formation in approximately 20% of cases studied. Therefore, although the HGF/MET R axis appears to be dispensable for normal haemopoietic cell growth, it may play a role in the growth of malignant haemopoietic progenitor cells.     

Ras-GRF activates Ha-Ras, but not N-Ras or K-Ras 4B, protein in vivo

Human cells contain four homologous Ras proteins, but it is unknown whether these homologues have different biological functions. As a first step in determining if Ras homologues might participate in distinct signaling cascades, we assessed whether a given Ras guanine nucleotide exchange factor could selectively activate a single Ras homologue in vivo. We found that Ras-GRF/Cdc25Mm activates Ha-Ras, but does not activate N-Ras or K-Ras 4B, protein in vivo. Moreover, our results suggested that residues within the C-terminal hypervariable domains of Ras proteins may dictate, at least in part, the specificity of Ras-GRF/CDC25Mm for Ha-Ras protein. Our studies represent the first biochemical evidence that a Ras GEF can selectively activate a single Ras homologue in vivo. Selective activation of a single Ras homologue by Ras-GRF/Cdc25Mm or other Ras guanine nucleotide exchange factors could potentially enable each of the Ras homologues to participate in different signal transduction pathways.     

Placental defect and embryonic lethality in mice lacking hepatocyte growth factor/scatter factor

Hepatocyte growth factor/scatter factor (HGF/SF) functions as a mitogen, motogen and morphogen for a variety of cultured cells. The genes for HGF/SF and its receptor (the c-met proto-oncogene product) are expressed in many tissues during the embryonic periods and in the adult. HGF/SF is thought to mediate a signal exchange between the mesenchyme and epithelia during mouse development. To examine the physiological role of HGF/SF, we generated mutant mice with a targeted disruption of the HGF/SF gene. Here we report that homozygous mutant embryos have severely impaired placentas with markedly reduced numbers of labyrinthine trophoblast cells, and die before birth. The growth of trophoblast cells was stimulated by HGF/SF in vitro, and the HGF/SF activity was released by allantois in primary culture of normal but not mutant embryos. These findings suggest that HGF/SF is an essential mediator of allantoic mesenchyme-trophoblastic epithelia interaction required for placental organogenesis.     

Effects of excitatory amino acids on cerebral oxygen consumption and blood flow in rat

The oncogene Tpr-Met is a constitutively active form of the hepatocyte growth factor/scatter factor (HGF/SF) receptor Met. It comprises the intracellular moiety of Met linked to the dimerization domain of the nuclear envelope protein Tpr, thus functioning as a constitutively activated Met. HGF/SF is responsible for various biological processes including angiogenesis and wound healing, in which secreted serine protease urokinase-type plasminogen activator (uPA) is implicated. The action of HGF/SF on cells is mediated by the autophosphorylation of Met on two carboxyterminal tyrosine residues, Y1349VHVNATVY1356VNV. The two tyrosine residues provide docking sites for various effector molecules, suggesting that multiple signaling pathways are activated to exert biological effects of HGF/SF [Ponzetto et al., Cell (1994) 77: 261]. We found that Tpr-Met efficiently activates the uPA gene via a SOS/Ras/extracellular signal regulated kinase (ERK)-dependent signaling pathway. Mutation of Y1356, which abrogates GRB2 binding, reduced the induction to half of the control level, while mutation of Y1349 showed little effect on uPA induction, suggesting an important but partly replaceable role for GRB2 in Met-dependent uPA gene induction. Mutation of both Y1349VHV and Y1356VNV into optimal PI 3-kinase sites resulted in a residual induction of about one quarter of the control level, suggesting a potential role for PI 3-kinase. Dose-response analysis of the Tpr-Met showed a biphasic curve. These results suggest that the interplay among different signaling molecules on the receptor is important for full induction of the pathway leading to the activation of the uPA gene.     

Hepatocyte growth factor/scatter factor (HGF/SF) is produced by human bone marrow stromal cells and promotes proliferation, adhesion and survival of human hematopoietic progenitor cells (CD34+)

The fate of hematopoietic progenitor cells (HPCs) in the bone marrow (BM) microenvironment is determined by two different interactions: 1) they adhere (via integrins) to both extracellular matrix molecules and BM stromal cells; and 2) stromal cells produce cytokines that influence their survival, proliferation, differentiation, and mobilization. The ligands for the protein tyrosine kinase receptors c-KIT and FLT3/FLK2, stem cell factor (SCF), and FL are produced by BM stromal cells and are known to affect several facets of hematopoiesis. We studied another protein tyrosine kinase receptor, c-MET, and its ligand hepatocyte growth factor (HGF), also known as scatter factor (SF), which play a similar role in hematopoiesis. c-MET mRNA is expressed in immature human BM HPCs (CD34+CD33- or CD34+CD38-), but not in more mature HPCs (CD34+CD33+ or CD34+CD38+). The ligand HGF/SF is predominantly produced by BM stromal cells at both the mRNA and protein levels. We confirmed functionally that HGF/SF alone has no effect on proliferation of HPCs, but that when combined with granulocyte/macrophage colony-stimulating factor (GM-CSF) or interleukin-3 it acts as a synergistic proliferative factor, although not as potently as kit-ligand or FLT-3/FLK-2 ligand. Furthermore, HGF/SF promotes adhesion of HPCs to immobilized fibronectin. HGF/SF-induced adhesion to fibronectin is probably caused by activation of the integrins alpha4beta1 and alpha5beta1, insofar as we were able to block this interaction by using monoclonal blocking antibodies directed against these integrin subunits. Addition of the tyrosine-phosphorylation inhibitor genistein inhibited HGF/SF-induced adhesion, supporting the idea that HGF/SF-induced effects are the result of signaling via the receptor c-MET after ligand binding. The enhanced adhesion of HGF/SF to fibronectin proved to be beneficial for the maintenance of the colony-forming potential of HPCs. HGF/SF alone and especially in combination with fibronectin prolongs survival of GM colony-forming cells in liquid culture. Our data indicate that HGF/SF is a polyfunctional cytokine in the BM microenvironment. It is produced by human BM stromal cells and directly or indirectly promotes proliferation, adhesion, and survival of human HPCs.     

Hepatocyte growth factor and c-MET in benign and malignant peripheral nerve sheath tumors

Hepatocyte growth factor (HGF), secreted by mesenchymal cells, has pleiotropic biological activities on several cell types. HGF and its receptor, the c-met proto-oncogene product (c-MET) have been implicated in the genesis and progression of several carcinomas and sarcomas. It has been suggested that MET/HGF autocrine signaling may contribute to tumorigenesis in sarcomas. HGF has been recently found to be a mitogen for rat Schwann cells and to be present in neurofibromas in NF1 patients. In this investigation, we assessed the immunoreactive patterns of HGF and MET in benign and malignant peripheral nerve sheath tumors (PNST) using archival formalin-fixed tissue. The standard avidin-biotin-peroxidase method was used. All benign tumors were negative with HGF. Eight cases of MPNST were positive with both HGF and MET. In some malignant PNST, positivity with both ligand and the receptor may be indicative of an autocrine mediated signal transduction and may implicate HGF/MET in tumor progression. Immunoreactivity with MET was strikingly greater in MPNST in contrast to benign PNST; this finding may prove to be helpful in distinguishing some histologically low-grade MPNST from cellular and atypical benign PNST.     

Phosphoinositide 3-kinase induces scattering and tubulogenesis in epithelial cells through a novel pathway

Hepatocyte growth factor/scatter factor (HGF/SF) treatment of the Madin-Darby canine kidney epithelial cell line causes scattering of cells grown in monolayer culture and the formation of branching tubules by cells grown in collagen gels. HGF/SF causes prolonged activation of both the mitogen-activated protein (MAP) kinase extracellular signal-regulated kinase 2 (ERK2) and the phosphoinositide 3-OH kinase (PI 3-kinase) target protein kinase B (PKB)/Akt; inhibition of either the MAP kinase pathway by the MAP kinase/ERK kinase inhibitor PD98059 or the PI 3-kinase pathway by LY294002 blocks HGF/SF induction of scattering, although in morphologically distinct ways. Expression of constitutively activated PI 3-kinase, Ras, or R-Ras will cause scattering, but activated Raf will not, indicating that activation of the MAP kinase pathway is not sufficient for this response. Downstream of PI 3-kinase, activated PKB/Akt and Rac are both unable to induce scattering, implicating a novel pathway. Scattering induced by Ras or PI 3-kinase is sensitive to PD98059, as well as to LY294002, suggesting that basal MAP kinase activity is required, but not sufficient, for the scattering response. Induction of MDCK cell tubulogenesis in collagen gels by HGF/SF is inhibited by PD98059; expression of activated Ras and Raf causes disorganized growth in this system, but activated PI 3-kinase or R-Ras causes branching tubule formation similar to that seen with HGF/SF treatment. These data indicate that multiple signaling pathways acting downstream of Met and Ras are needed for these morphological effects; scattering is induced primarily by the PI 3-kinase pathway, which acts through effectors other than PKB/Akt or Rac and requires at least basal MAP kinase function. Elevated PI 3-kinase activity induces tubulogenesis, but total inhibition and excess activation of the MAP kinase pathway both oppose this effect.     

Overexpression and activation of hepatocyte growth factor/scatter factor in human non-small-cell lung carcinomas

Hepatocyte growth factor/scatter factor (HGF/SF) stimulates the invasive growth of epithelial cells via the c-MET oncogene-encoded receptor. In normal lung, both the receptor and the ligand are detected, and the latter is known to be a mitogenic and a motogenic factor for both cultured bronchial epithelial cells and non-small-cell carcinoma lines. Here, ligand and receptor expression was examined in 42 samples of primary human non-small-cell lung carcinoma of different histotype. Each carcinoma sample was compared with adjacent normal lung tissue. The Met/HGF receptor was found to be 2 to 10-fold increased in 25% of carcinoma samples (P = 0.0113). The ligand, HGF/SF, was found to be 10 to 100-fold overexpressed in carcinoma samples (P < 0.0001). Notably, while HGF/SF was occasionally detectable and found exclusively as a single-chain inactive precursor in normal tissues, it was constantly in the biologically-active heterodimeric form in carcinomas. Immunohistochemical staining showed homogeneous expression of both the receptor and the ligand in carcinoma samples, whereas staining was barely detectable in their normal counterparts. These data show that HGF/SF is overexpressed and consistently activated in non-small-cell lung carcinomas and may contribute to the invasive growth of lung cancer.     

Negative signaling in B cells causes reduced Ras activity by reducing Shc-Grb2 interactions

To elucidate the molecular basis for inhibition of B cell proliferation and differentiation by the Fc receptor for IgG (Fc(gamma)RII), we compared the signaling events in B cells stimulated by cross-linking surface Ig alone (positive signaling), or by co-cross-linking surface Ig and Fc(gamma)RII (negative signaling). Both modes of stimulation induced tyrosine kinase activation. Positive signaling induced activation of Ras, Raf-1 kinase, and mitogen-activated protein kinase; these events were significantly attenuated during negative signaling. Since Ras is activated by SOS and Vav, two known guanine nucleotide exchange factors, activation events associated with these molecules using the two different stimuli were examined. Results of these experiments indicated that tyrosine phosphorylation of Vav did not change upon co-cross-linking. In contrast, the association of Shc and Grb2 was abrogated under negative and induced under positive signaling conditions. Concomitantly, Shc was observed to associate with a tyrosine-phosphorylated 145-kDa protein, previously identified as Src homology 2-containing inositol phosphatase, only under conditions of negative signaling. Based on these results, we hypothesize that negative signaling via the Fc(gamma)RII in B cells is at least partly the result of a block in Ras activation, and that SOS, but not Vav, is the major guanine nucleotide exchange factor in B cells for Ras activation.     

Autocrine hepatocyte growth factor/scatter factor-Met signaling induces transformation and the invasive/metastastic phenotype in C127 cells

Hepatocyte growth factor/scatter factor (HGF/SF) is a pleiotropic effector of cells expressing the Met tyrosine kinase receptor. C127 is a non-tumorigenic mouse cell line which expresses negligible levels of HGF/SF and Met proteins. In the present report we have generated C127 cells which overexpress HGF/SF and/or Met proteins, and have analysed the effect of HGF/SF-Met signaling in these cells. We show that this signaling pathway stimulates the growth and invasiveness of C127 cells in vitro and that cells overexpressing both HGF/SF and Met proteins (but neither alone) are phenotypically transformed and highly tumorigenic and metastatic in vivo. Our data unequivocally demonstrates the autocrine dependency of HGF/SF-Met-induced transformation and metastasis in this system and supports the theory that the inappropriate expression of HGF/SF and Met proteins could play a role in the development and spread of human tumors. In addition, this system may be useful for identifying metastasis-associated genes that are activated by HGF/SF-Met signaling.     

Coordinate expression of the alpha and beta chains of human granulocyte-macrophage colony-stimulating factor receptor confers ligand-induced morphological transformation in mouse fibroblasts

Two distinct components, alpha and beta chains, which compose the high affinity receptor for human granulocyte-macrophage colony-stimulating factor (GM-CSF) do not contain any catalytic domains of known enzymes. However, in mouse lymphoid cell lines transfected with cDNAs of the both chains, GM-CSF triggers tyrosine phosphorylation of several cellular proteins and allows continuous proliferation. To elucidate whether the high affinity receptor functions in nonhematopoietic cells, we have reconstituted human GM-CSF receptor in mouse NIH3T3 fibroblasts. In NIH3T3 clones, in which the high affinity receptor is reconstituted, human GM-CSF has triggered rapid tyrosine phosphorylation of cellular proteins, transfected beta chain, and another protein of 40-45 kDa. Moreover, human GM-CSF stimulated DNA synthesis and induced morphological transformation. These observations indicate that coordinately expressed alpha and beta chains of human GM-CSF receptor activates intrinsic protein-tyrosine kinases by the stimulation with human GM-CSF and that the activated protein-tyrosine kinases phosphorylate tyrosine residues of an intrinsic 40-45-kDa protein and the transfected beta chain in NIH3T3 cells. Activation of the protein-tyrosine kinases is likely to have biological functions to induce DNA synthesis and morphological transformation of mouse fibroblasts.     

Multiple regression analysis of the factors influencing the results of expansive open-door laminoplasty for cervical myelopathy due to ossification of the posterior longitudinal ligament

The small GTPase Ral is a Ras-like GTPase [1] that has been implicated in growth-factor-induced and Ras-induced DNA synthesis [2-4], and Ras-induced oncogenic transformation [3,5]. Recently, we and others found that three different Ral guanine nucleotide exchange factors (Ral GEFs) - Ral GDS, Rgl and Rlf - bind specifically to the GTP-bound form of several Ras-like GTPases [6-9]. Although oncogenic Ras is able to activate these Ral GEFs [2,5,10], it is unknown whether growth factors can induce the activation of Ral and, if so, which small GTPase is involved in this process. Here, we show that stimulation of various growth factor receptors, including receptor tyrosine kinases and serpentine receptors, results in rapid activation of Ral. This activation correlates with the activation of Ras, and dominant-negative Ras completely inhibits Ral activation induced by insulin and epidermal growth factor (EGF). From these results, we conclude that Ral activation is a direct downstream effect of growth-factor-induced Ras activation.     

Hepatocyte growth factor/scatter factor induces not only scattering but also cohort migration of human colorectal-adenocarcinoma cells

We presented earlier a 2-dimensional cell-motility assay using a highly metastatic variant (L-10) of human rectal-adenocarcinoma cell line RCM-1 as a motility model of tumor cells of epithelial origin. In this model, L-10 cells moved as coherent cell sheets when stimulated with 12-O-tetradecanoylphorbol-13-acetate (TPA), and we called this type of movement "cohort migration". Electron- and immunoelectron-microscope study of the migrating cell sheets demonstrated localized release from cell-cell adhesion only at the lower portion of the cells with loss of E-cadherin immunoreactivity, and this change was associated with increased tyrosine phosphorylation of the E-cadherin-catenin complex, including beta-catenin. In the present study, to obtain evidence to support the relevance of our model to carcinoma-cell movement in vivo, we sought a naturally occurring motogenic factor(s) able to induce this cohort migration. Among the factors examined, hepatocyte growth factor/scatter factor (HGF/SF) clearly induced cohort migration of L-10 cells. Additionally, not only L-10 but several other human colorectal-carcinoma cell lines showed this type of migration in response to HGF/SF, while yet others showed scattering-type motility. In this HGF/SF-induced migration, localized release from cell-cell adhesion was induced only at the lower portion of the cells, allowing them to extend leading lamellae, whereas close cell-cell contacts remained at the upper portion of the cells, as seen in TPA-induced cohort migration. Scattering-type cell lines tended to express more c-Met (receptor for HGF/SF) mRNA than the cell lines that showed cohort-type migration. LoVo, one of the scattering-type cell lines, expressed more c-Met protein and less E-cadherin than L-10, which showed cohort-type migration. HGF/SF treatment of LoVo reduced the amount of alpha-catenin complexed with E-cadherin more markedly than in L-10, but in both cell lines this reduction was not accompanied by increased tyrosine phosphorylation of beta-catenin, suggesting the presence of a mechanism other than phosphorylation for release from cell-cell adhesion during cell motility.     

Regulation of Sos activity by intramolecular interactions

The guanine nucleotide exchange factor Sos mediates the coupling of receptor tyrosine kinases to Ras activation. To investigate the mechanisms that control Sos activity, we have analyzed the contribution of various domains to its catalytic activity. Using human Sos1 (hSos1) truncation mutants, we show that Sos proteins lacking either the amino or the carboxyl terminus domain, or both, display a guanine nucleotide exchange activity that is significantly higher compared with that of the full-length protein. These results demonstrate that both the amino and the carboxyl terminus domains of Sos are involved in the negative regulation of its catalytic activity. Furthermore, in vitro Ras binding experiments suggest that the amino and carboxyl terminus domains exert negative allosteric control on the interaction of the Sos catalytic domain with Ras. The guanine nucleotide exchange activity of hSos1 was not augmented by growth factor stimulation, indicating that Sos activity is constitutively maintained in a downregulated state. Deletion of both the amino and the carboxyl terminus domains was sufficient to activate the transforming potential of Sos. These findings suggest a novel negative regulatory role for the amino terminus domain of Sos and indicate a cooperation between the amino and the carboxyl terminus domains in the regulation of Sos activity.     

Paracrine regulation of germinal center B cell adhesion through the c-met-hepatocyte growth factor/scatter factor pathway

T cell-dependent humoral immune responses are initiated by the activation of naive B cells in the T cell areas of the secondary lymphoid tissues. This primary B cell activation leads to migration of germinal center (GC) cell precursors into B cell follicles where they engage follicular dendritic cells (FDC) and T cells, and differentiate into memory B cells or plasma cells. Both B cell migration and interaction with FDC critically depend on integrin-mediated adhesion. To date, the physiological regulators of this adhesion were unkown. In the present report, we have identified the c-met-encoded receptor tyrosine kinase and its ligand, the growth and motility factor hepatocyte growth factor/scatter factor (HGF/SF), as a novel paracrine signaling pathway regulating B cell adhesion. We observed that c-Met is predominantly expressed on CD38(+)CD77(+) tonsillar B cells localized in the dark zone of the GC (centroblasts). On tonsil B cells, ligation of CD40 by CD40-ligand, induces a transient strong upregulation of expression of the c-Met tyrosine kinase. Stimulation of c-Met with HGF/SF leads to receptor phosphorylation and, in addition, to enhanced integrin-mediated adhesion of B cells to both VCAM-1 and fibronectin. Importantly, the c-Met ligand HGF/SF is produced at high levels by tonsillar stromal cells thus providing signals for the regulation of adhesion and migration within the lymphoid microenvironment.     

Hepatocyte growth factor (HGF/SF) is a muscle-derived survival factor for a subpopulation of embryonic motoneurons

Muscle-derived factors are known to be important for the survival of developing spinal motoneurons, but the molecules involved have not been characterized. Hepatocyte growth factor/scatter factor (HGF/SF) plays an important role in muscle development and motoneuron axon outgrowth. We show that HGF/SF has potent neurotrophic activity (EC50=2 pM) for a subpopulation (40%) of purified embryonic rat motoneurons. Moreover, HGF/SF is an essential component of muscle-derived support for motoneurons, since blocking antibodies to HGF/SF specifically inhibited 65% of the trophic activity of media conditioned by C2/C7 skeletal myotubes, but did not inhibit the trophic activity secreted by Schwann cell lines. High levels of expression of the HGF/SF receptor c-Met in the spinal cord are restricted to subsets of motoneurons, mainly in limb-innervating segments. Consistent with this distribution, cultured motoneurons from limb-innervating brachial and lumbar segments showed a more potent response to HGF/SF than did thoracic motoneurons. By the end of the period of motoneuron cell death, levels of c-Met mRNA in motoneurons were markedly reduced, suggesting that the effects of HGF/SF may be limited to the period of motoneuron cell death. HGF/SF may play an important role during motoneuron development as a muscle-derived survival factor for a subpopulation of limb-innervating motoneurons.