Hippocampal GABAergic interneurons are crucial for cortical network function and have been implicated in psychiatric disorders. We show here that Neuregulin 3 (Nrg3), a relatively little investigated low‐affinity ligand, is a functionally dominant interaction partner of ErbB4 in parvalbumin‐positive (PV) interneurons. Nrg3 and ErbB4 are located pre‐ and postsynaptically, respectively, in excitatory synapses on PV interneurons in vivo. Additionally, we show that ablation of Nrg3 results in a similar phenotype as the one described for ErbB4 ablation, including reduced excitatory synapse numbers on PV interneurons, altered short‐term plasticity, and disinhibition of the hippocampal network. In culture, presynaptic Nrg3 increases excitatory synapse numbers on ErbB4+ interneurons and affects short‐term plasticity. Nrg3 mutant neurons are poor donors of presynaptic terminals in the presence of competing neurons that produce recombinant Nrg3, and this bias requires postsynaptic ErbB4 but not ErbB4 kinase activity. Furthermore, when presented by non‐neuronal cells, Nrg3 induces postsynaptic membrane specialization. Our data indicate that Nrg3 provides adhesive cues that facilitate excitatory neurons to synapse onto ErbB4+ interneurons. 相似文献
Mammary gland development culminates in lactation and is orchestrated by numerous stimuli and signaling pathways. The Src
family of nonreceptor tyrosine kinases plays a pivotal role in cell signaling. In order to determine if Src plays a role in
mammary gland development we have examined mammary gland development and function during pregnancy and lactation in mice in
which expression of Src has been eliminated. 相似文献
Shortly after weaning, a complex multi-step process that leads to massive epithelial apoptosis is triggered by tissue local
factors in the mouse mammary gland. Several reports have demonstrated the relevance of mechanical stress to induce adaptive
responses in different cell types. Interestingly, these signaling pathways also participate in mammary gland involution. Then,
it has been suggested that cell stretching caused by milk accumulation after weaning might be the first stimulus that initiates
the complete remodeling of the mammary gland. However, no previous report has demonstrated the impact of mechanical stress
on mammary cell physiology. To address this issue, we have designed a new practical device that allowed us to evaluate the
effects of radial stretching on mammary epithelial cells in culture. 相似文献
HC11 mouse mammary epithelial cells differentiate in response to lactogenic hormone resulting in expression of milk proteins
including β-casein. Previous studies have shown that epidermal growth factor (EGF) blocks differentiation not only through
activation of the Ras/Mek/Erk pathway but also implicated phosphatidylinositol-3-kinase (PI-3-kinase) signaling. The current
study analyzes the mechanism of the PI-3-kinase pathway in an EGF-induced block of HC11 lactogenic differentiation. 相似文献
The ERBB family of type 1 receptor tyrosine kinases and their ligands have crucial functions during mammopoiesis, but the signaling networks that ultimately regulate ERBB activity in the breast have remained elusive. Here, we show that mice with Cre-lox mediated deletions of both Erbb4 alleles within the developing mammary gland (Erbb4(Flox/Flox)Wap-Cre) fail to accumulate lobuloalveoli or successfully engage lactation at parturition owing, in part, to impaired epithelial proliferation. Analysis of the mammary differentiation factor STAT5 by immunohistochemistry and western blot revealed a complete ablation of STAT5 activation in Erbb4(Flox/Flox)Wap-Cre mammary epithelium at parturition. Consistent with disrupted STAT5 function, Erbb4(Flox/Flox)Wap-Cre mammary glands at parturition failed to express the mammary epithelial differentiation marker NPT2B. Defects in epithelial functional differentiation at parturition were accompanied by a profound reduction in expression of the STAT5-regulated milk genes casein beta and whey acidic protein. We propose that ERBB4 functions as an essential mediator of STAT5 signaling, and that loss of STAT5 activity contributes to the impaired functional differentiation of mammary glands observed in mice containing conditional Erbb4 deletions. 相似文献
The oncoprotein c-Myc has been intensely studied in breast cancer and mouse mammary tumor models, but relatively little is
known about the normal physiological role of c-Myc in the mammary gland. Here we investigated functions of c-Myc during mouse
mammary gland development using a conditional knockout approach. 相似文献
Previously, we demonstrated that systemically injected extracellular domain of neuregulin‐1β1 (Nrg1β1), a nerve growth and differentiation factor, passes the blood‐brain barrier and rescues dopaminergic neurons of substantia nigra in the 6‐hydroxydopamine‐mouse model of Parkinson's disease (PD). Here, we studied the effects of peripherally administered Nrg1β1 in another toxin‐based mouse model of PD. For this purpose, (i) nigrostriatal pathway injury was induced by treatment of adult wild‐type mice with 1‐methyl‐4‐phenyl‐1,2,3,6‐tetrahydropyridine (MPTP) in acute and subchronic paradigms; and (ii) Nrg1β1 or saline (control) were administered 1 h before each MPTP injection. We found that Nrg1β1 significantly reduced the loss of nigral dopaminergic neurons in both intoxication paradigms (7 days post‐injection). However, Nrg1β1 did not reverse MPTP‐induced decrease in dopamine levels and dopaminergic fibers in the striatum. We also show that MPTP conversion to its toxic metabolite 1‐methyl‐4‐phenylpyridinium as well as levels of dopamine transporter, mediating intracellular uptake of 1‐methyl‐4‐phenylpyridinium, are unaffected by Nrg1β1. Finally, neuroprotective properties of Nrg1β1 on nigral dopaminergic neurons are specifically mediated by ErbB4 as revealed through the study of ErbB4 knockout mice. In conclusion, systemically administered Nrg1β1 protects midbrain dopaminergic neurons against this PD‐related toxic insult. Thus, Nrg1β1 may have a benefit in the treatment of PD patients.
The Neuregulin‐1 (Nrg1)/ErbB pathway plays multiple, critical roles in early cardiac and nervous system development and has been implicated in both heart and nerve repair processes. However, the early embryonic lethality of mouse Nrg1 mutants precludes an analysis of Nrg1's function in later cardiac development and homeostasis. In this study, we generated a novel nrg1 null allele targeting all known isoforms of nrg1 in zebrafish and examined cardiac structural and functional parameters throughout development. We found that zebrafish nrg1 mutants instead survived until young adult stages when they exhibited reduced survivorship. This coincided with structural and functional defects in the developing juvenile and young adult hearts, as demonstrated by reduced intracardiac myocardial density, cardiomyocyte cell number, swimming performance and dysregulated heartbeat. Interestingly, nrg1 mutant hearts were missing long axons on the ventricle surface by standard length (SL) 5 mm, which preceded juvenile and adult cardiac defects. Given that the autonomic nervous system normally exerts fine control of cardiac output through this nerve plexus, these data suggest that Nrg1 may play a critical role in establishing the cardiac nerve plexus such that inadequate innervation leads to deficits in cardiac maturation, function and survival. 相似文献
Neuregulin 1 (Nrg1) functions in neuronal migration, survival and differentiation as well as synaptogenesis during ontogenetic development and maintenance of synaptic functions in the adult mammalian brain. The neural adhesion molecule L1 (L1CAM) functions in similar overlapping, but also non-overlapping roles in the nervous system. In the present study, we therefore investigated some aspects of the functional relationship between Nrg1 and L1 in mammalian neural cells. Nrg1 regulates the expression of L1 in cultures of both human neuroblastoma SK-N-SH cells and mouse cortical and hippocampal neurons. To analyze the role of Nrg1 on L1 expression in vivo, young adult male mice received intraperitoneal injections of Nrg1 or PBS (vehicle control). The correlation between Nrg1 and L1 expression was tested by qPCR, Western blot analysis, and immunocytology. Our data indicate that neuregulin 1-β (Nrg1β) increases L1 expression in neurons of the cerebral cortex, and decreases expression in neurons of the hippocampus in vitro and in vivo. In addition, Nrg1 induces phosphorylation of its receptors, ErbB2 and ErbB4, the predominant ErbB receptors in the nervous system. These results show that Nrg1β affects expression of L1 in the central nervous system and in parallel activates the ErbB receptors for Nrg1, suggesting a crosstalk between molecules that are of prime importance for nervous system functions. 相似文献
Connective Tissue Growth Factor (CTGF/CCN2), a known matrix-associated protein, is required for the lactogenic differentiation
of mouse mammary epithelial cells. An HC11 mammary epithelial cell line expressing CTGF/CCN2 was constructed to dissect the
cellular responses to CTGF/CCN2 that contribute to this differentiation program. 相似文献
Brisken et al (2000) showed that Wnt4 null mammary glands were deficient in early lobuloalveolar mammary outgrowth during
pregnancy, and implicated Wnt4 as an effector for the progesterone-induced mammary growth program. Though ectopic Wnt1 signaling
is known to be mitogenic and oncogenic, no endogenously expressed Wnt ligands have ever been directly implicated in mammary
growth and morphogenesis. Therefore, we generated conditional transgenic mice to test whether Wnt4 can stimulate mammary epithelial
cell growth. 相似文献
Skin disorders are widespread, but available treatments are limited. A more comprehensive understanding of skin development mechanisms will drive identification of new treatment targets and modalities. Here we report the Zebrafish Integument Project (ZIP), an expression-driven platform for identifying new skin genes and phenotypes in the vertebrate model Danio rerio (zebrafish). In vivo selection for skin-specific expression of gene-break transposon (GBT) mutant lines identified eleven new, revertible GBT alleles of genes involved in skin development. Eight genes—fras1, grip1, hmcn1, msxc, col4a4, ahnak, capn12, and nrg2a—had been described in an integumentary context to varying degrees, while arhgef25b, fkbp10b, and megf6a emerged as novel skin genes. Embryos homozygous for a GBT insertion within neuregulin 2a (nrg2a) revealed a novel requirement for a Neuregulin 2a (Nrg2a) – ErbB2/3 – AKT signaling pathway governing the apicobasal organization of a subset of epidermal cells during median fin fold (MFF) morphogenesis. In nrg2a mutant larvae, the basal keratinocytes within the apical MFF, known as ridge cells, displayed reduced pAKT levels as well as reduced apical domains and exaggerated basolateral domains. Those defects compromised proper ridge cell elongation into a flattened epithelial morphology, resulting in thickened MFF edges. Pharmacological inhibition verified that Nrg2a signals through the ErbB receptor tyrosine kinase network. Moreover, knockdown of the epithelial polarity regulator and tumor suppressor lgl2 ameliorated the nrg2a mutant phenotype. Identifying Lgl2 as an antagonist of Nrg2a – ErbB signaling revealed a significantly earlier role for Lgl2 during epidermal morphogenesis than has been described to date. Furthermore, our findings demonstrated that successive, coordinated ridge cell shape changes drive apical MFF development, making MFF ridge cells a valuable model for investigating how the coordinated regulation of cell polarity and cell shape changes serves as a crucial mechanism of epithelial morphogenesis. 相似文献
TGF-β acts as an antiproliferative factor in normal epithelial cells and at early stages of oncogenesis. However, later in
tumor development TGF-β can become tumor promoting through mechanisms including the induction of epithelial-to-mesenchymal
transition (EMT), a process that is thought to contribute to tumor progression, invasion and metastasis. To identify EMT-related
breast cancer therapeutic targets and biomarkers, we have used two proteomic approaches to find proteins that change in abundance
upon the induction of EMT by TGF-β in two mouse mammary epithelial cell lines, NMuMG and BRI-JM01. 相似文献
Coordinating the balance between progenitor self-renewal and myogenic differentiation is required for a regulated expansion of the developing muscles. Previous observation that neural crest cells (NCCs) migrate throughout the somite regions, where trunk skeletal muscles first emerge, suggests a potential role for these cells in influencing early muscle formation. However, specific signaling interactions between NCCs and skeletal muscle cells remain unknown. Here we show that mice with specific NCC and peripheral nervous system defects display impaired survival of skeletal muscle and show skeletal muscle progenitor cell (MPC) depletion due to precocious commitment to differentiation. We show that reduced NCC-derived Neuregulin1 (Nrg1) in the somite region perturbs ErbB3 signaling in uncommitted MPCs. Using a combination of explant culture experiments and genetic ablation in the mouse, we demonstrate that Nrg1 signals provided by the NCC lineage play a critical role in sustainable myogenesis, by restraining MPCs from precocious differentiation. 相似文献
Tyrosine kinase inhibitors (TKIs) have gained much attention in recent years as targeted agents for the treatment of a wide
range of human cancers. We have investigated the effect of the TKIs gefitinib and vandetanib on tumor cell lines derived from
Ewing sarcoma, a highly malignant tumor affecting bone and soft tissue in children and young adults. Gefitinib is an inhibitor
of epidermal growth factor receptor tyrosine kinase activity (EGFR) and vandetanib selectively targets vascular endothelial
growth factor receptor-2 (VEGFR-2) with additional activity against VEGFR-3, EGFR and RET kinase receptors. 相似文献
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