Homeobox B3, FoxA1 and FoxA2 interactions in epithelial lung cell differentiation of the multipotent M3E3/C3 cell line

HOM/C homeobox (Hox) and forkhead box (Fox) factors are reported to be expressed in the foregut endoderm and are subsequently detected in a spatio-temporal pattern during lung development. Some of these factors were reported to influence the expression of lung marker proteins or to modulate lung development. To clarify the molecular mechanisms for generating functional lung cells from progenitor cell populations, we introduced the forkhead box factors, FoxA1 and FoxA2, and the homeobox factor, HoxB3, into the differentiation process in a multipotent hamster lung epithelial M3E3/C3 cell line. Ectopic expression of FoxA2 promoted differentiation to Clara-like cells with up-regulation of the expression of the lung marker proteins, Clara cell-specific 10-kDa protein and surfactant protein-B. In contrast, FoxA1 repressed the differentiation. HoxB3 transfection induced FoxA2 expression transiently at the pre-differentiation stage. The endogenous HoxB3 expression level decreased at later stages of Clara-like cell differentiation, and the attenuation was enhanced by FoxA2 transfection. HoxB3 is a putative upstream regulator that enhances FoxA2 expression at the pre-differentiation stage. In addition, we found that the expression of HoxA4, HoxA5, and HoxC9 increased differentially during Clara-like cell differentiation. These results suggest that HoxB3 may be a putative positive regulator of FoxA2 expression at the pre-differentiation stage, and those interactions of Fox factors and Hox factors could participate in Clara cell differentiation.     

Cell-type specific regulation of galectin-3 expression by glucocorticoids in lung Clara cells and macrophages

Bronchiolar Clara cells are integral components of lung homeostasis, predominantly distributed in distal airways. In addition to the 16 kDa Clara cell protein, a major secretory product with anti-inflammatory effects, rat Clara cells express the glycan-binding protein galectin-3 and secrete it into the airways. Given the essential role of galectin-3 in the control of inflammation and the well-established function of glucocorticoids (GCs) in lung physiology, here we investigated whether galectin-3 is a target of the regulatory effects of GCs. Adult male rats were subjected to bilateral adrenalectomy and the lungs were processed for light and transmission electron microscopy, immunoelectron microscopy and Western blot analysis. Profound changes in bronchiolar Clara cells and macrophage morphology could be observed by electron microscopy after adrenalectomy. While specific galectin-3 staining was detected in the nucleus and cytoplasm of Clara cells and macrophages from control animals, cytoplasmic galectin-3 expression was dramatically reduced after adrenalectomy in both cell types. This effect was cell-specific as it did not affect expression of this lectin in ciliated cells. After dexamethasone treatment, galectin-3 expression increased significantly in the nucleus and cytoplasm of macrophages and Clara cells. Western blot analysis showed a clear decrease in galectin-3 expression in ADX animals, which was recovered after a 7-day treatment with dexamethasone. In peritoneal macrophages, galectin-3 expression was also dependent on the effects of GCs both in vivo and in vitro. Our results identify a cell type-specific control of galectin-3 synthesis by GCs in lung bronchiolar Clara cells and interstitial macrophages, which may provide an alternative mechanism by which GCs contribute to modulate the inflammatory response.     

Suppression of embryonic lung branching morphogenesis by antisense oligonucleotides against HOM/C homeobox factors

The role of HOM/C homeobox genes on rat embryonic lung branching morphogenesis was investigated using the lung bud explant culture system in an air/liquid interface. Knock down of homeobox b3 and b4 expression by antisense oligonucleotide treatment repressed airway branch formation, while antisense oligonucleotide against homeobox a3 showed no effect. Addition of antisense Hoxb3 oligonucleotide resulted in upregulation of collagen type III mRNA and fibroblast growth factor 10 mRNA, while that of the T-box regulatory factor-4 was decreased. Consequently, expression of Clara cell-specific secretory protein was decreased. These results suggest a critical role for homeobox b3 and b4 genes in lung airway branching morphogenesis.     

Secretory proteins of the lung in rodents: immunocytochemistry

The reactivity of rabbit antisera to rat lung secretory proteins with other rodent species was evaluated by immunocytochemistry. Rabbit anti-rat surfactant apoprotein antiserum reacts with the cytoplasm of rat, mouse, and hamster type II pneumocytes and is specific for these cells. Rabbit antiserum to rat Clara cell secretory proteins stains rat, mouse, and hamster Clara cells. Rabbit antisera specific to the two antigenic types of rat Clara cell antigens were also both reactive with rat, mouse, and hamster Clara cells. An antiserum to the non-serum proteins of hamster lung lavage was also prepared and shown to be specifically reactive with hamster Clara cells. The availability of specific reagents for secretory proteins of rodent lungs is expected to facilitate studies of the respective cell types in various pathologic states.     

l7Rn6 encodes a novel protein required for clara cell function in mouse lung development

The highly secretory Clara cells play a pivotal role in protecting the lung against inflammation and oxidative stress. This study reports the positional cloning of a novel protein required for Clara cell physiology in mouse lung development. The perinatal lethal N-ethyl-N-nitrosourea-induced l7Rn6(4234SB) allele contained a nonsense mutation in the previously hypothetical gene NM_026304 on chromosome 7. Whereas l7Rn6 mRNA levels were indistinguishable from wild type, l7Rn6(4234SB) homozygotes exhibited decreased expression of the truncated protein, suggesting protein instability. During late gestation, l7Rn6 was widely expressed in the cytoplasm of lung epithelial cells, whereas perinatal expression was restricted to the bronchiolar epithelium. Homozygosity for the l7Rn6(4234SB) allele did not affect early steps in lung patterning, growth, or cellular differentiation. Rather, mutant lungs demonstrated severe emphysematous enlargement of the distal respiratory sacs at birth. Clara cell pathophysiology was evident from decreased cytoplasmic CCSP and SP-B protein levels, enlargement and disorganization of the Golgi complex, and formation of aberrant vesicular structures. Additional support for a role in the secretory pathway derived from l7Rn6 localization to the endoplasmic reticulum. Thus, l7Rn6 represents a novel protein required for organization and/or function of the secretory apparatus in Clara cells in mouse lung.     

Generation and characterization of a conditionally immortalized lung clara cell line from the H-2Kb-tsA58 transgenic mouse

The Clara cell is believed to be the progenitor of the peripheral airway epithelium, and it produces the surfactant proteins SP-A and SP-B, in addition to the 10-kDa Clara cell secretory protein (CCSP or CC10). To date, attempts to develop Clara cell lines have been unsuccessful. Most such attempts have involved the in vitro insertion of a transforming viral oncogene. We have reported previously the characterization of a differentiated conditionally immortalized murine lung Type II epithelial cell line, T7, from the H-2Kb-tsA58 transgenic mouse. We have also used this mouse model to derive Clara cell lines. In this model, the need for in vitro gene insertion is circumvented by the creation of a transgene, in which the large tumor antigen of a temperature-sensitive strain (tsA58) of the simian virus 40 (SV40) is fused with the major histocompatibility complex promoter H-2Kb. The promoter is active in a wide range of tissues and is induced by interferons (IFN). From the lungs of animals harboring the hybrid construct, we isolated and characterized Clara cells. The cells contain dense secretory granules and mitochondria typical of Clara cells, and express SP-A, SP-B, SP-D, and the Clara cell secretory protein, CC10. Withdrawal of the IFN and elevation of the incubation temperature permit normal cell differentiation similar to that of Clara cells in vivo. This cell line should be very useful for the investigation of normal Clara cell function and gene expression.     

Conditional expression of fibroblast growth factor-7 in the developing and mature lung

Effects of fibroblast growth factor-7 (FGF-7) on lung morphogenesis, respiratory epithelial cell differentiation, and proliferation were assessed in transgenic mice in which the human FGF-7 cDNA was controlled by a conditional promoter under the direction of regulatory elements from either the human surfactant protein-C (SP-C) or rat Clara cell secretory protein (ccsp) genes. Expression of FGF-7 was induced in respiratory epithelial cells of the fetal lung by administration of doxycycline to the dam. Prenatally, doxycycline induced FGF-7 mRNA in respiratory epithelial cells in both Sp-c and Ccsp transgenic lines, increasing lung size and causing cystadenomatoid malformation. Postnatally, mice bearing both Ccsp-rtta and (Teto)(7)-cmv-fgf-7 transgenes survived, and lung morphology was normal. Induction of FGF-7 expression by doxycycline in the Ccsp-rtta x (Teto)(7)-cmv-fgf-7 mice caused marked epithelial cell proliferation, adenomatous hyperplasia, and pulmonary infiltration with mononuclear cells. Epithelial cell hyperplasia caused by FGF-7 was largely resolved after removal of doxycycline. Surfactant proteins, TTF-1, and aquaporin 5 expression were conditionally induced by doxycycline. The Sp-c-rtta and Ccsp-rtta activator mice provide models in which expression is conditionally controlled in respiratory epithelial cells in the developing and mature lung, altering lung morphogenesis, differentiation, and proliferation.     

Budesonide effects on Clara cell under normal and allergic inflammatory condition

Clara cells are nonciliated secretory cells implicated in lung homeostasis by the synthesis of immunomodulatory and host defense products, being one of the most important the CC16 protein. In this study, we compared the effects of budesonide (BUD), an inhaled corticoid, on Clara cell biology and its ability to reverse morphofunctional changes induced in an allergic airway hyper-responsiveness mouse model. In normal mice, exposure to BUD induced morphological changes compatible with a state of maximal differentiation on CC16 positive cells which developed a prominent cupola filled up with numerous mitochondria rich in CYP2E1, a member of the cytochrome P450 family. Consequently, CYP2E1 expression raised significantly. Exposure to OVA provoked hypertrophy of Clara cells and an increment in their number per millimeter of basal membrane. These cells acquired a mucous cell phenotype characterized by a notorious expansion of the secretory granular content. Synthesis of CC16 was greatly up-regulated concurrent to the finding of MUC5AC expression and the increment of epidermal growth factor receptor (EGFR). Mitochondrial content decreased significantly with a consequent reduction in CYP2E1 expression. After BUD treatment of OVA-challenged animals, the majority of Clara cells regained their normal morphology and functional characteristics; CYP2E1 levels raised when compared to the OVA exposed group. The BUD potential to differentiate Clara cells appeared to be important for the regression of the profound changes generated by the allergic injury. These results demonstrated the wide range of stimuli that can modify different aspects of Clara cell biology, and highlighted the effects of budesonide as a modulator of P450 enzymes, which probably contributes to a complementary antiinflamatory activity.     

Airway branching patterns and cytodifferentiation in cultured fetal hamster lung

Intact fetal hamster lungs were taken for culture on gestational day 12, when only lobar bronchi and primary bronchioles are established and the epithelial cells are undifferentiated. Explants were maintained on Transwell collagen membranes for 2 and 4 days in BGJb medium alone, with 5% FBS, or with the following additives: insulin, transferrin, hydrocortisone, cholera toxin, EGF, and vitamin A. Development of the respiratory tree was affected differently by each medium formulation. BGJb medium with 5% FBS permitted near normal branching of airways and presumptive alveoli. In contrast, BGJb medium alone permitted only limited branching of these structures. BGJb medium with additives permitted branching but markedly altered normal development. The differentiation of endocrine and secretory cells was monitored by immunolabeling for serotonin and calcitonin gene-related peptide, and Clara cell protein, respectively. Ciliated cells were identified by morphology. All medium formulations supported the timely differentiation of endocrine, secretory, and ciliated cells. The ultimate goal of our studies is to characterize factors that influence airway branching and cytodifferentiation during fetal lung development. This study showed that near normal airway branching and cytodifferentiation were supported in vitro by BGJb medium with 5% FBS. Although cytodifferentiation occurred with the two other formulations, airway development was impaired.     

Mesenchymal maintenance of distal epithelial cell phenotype during late fetal lung development

Classical tissue recombination experiments have reported that at early gestation both tracheal and distal lung epithelium have the plasticity to respond to mesenchymal signals. Herein we examined the role of epithelial-mesenchymal interactions in maintaining epithelial differentiation at late (E19-E21, term = 22 days) fetal gestation in the rat. Isolated distal lung epithelial cells were recombined with mesenchymal cells from lung, skin, and intestine, and the homotypic or heterotypic recombinant cell aggregates were cultured for up to 5 days. Recombining lung epithelial cells with mesenchyme from various sources induced a morphological pattern that was specific to the type of inducing mesenchyme. In situ analysis of surfactant protein (SP)-C, SP-B, and Clara cell secretory protein (CCSP) expression, as well as SP-C and CCSP promoter transactivation experiments, revealed that distal lung epithelium requires lung mesenchyme to maintain the alveolar, but not bronchiolar, phenotype. Incubation of lung recombinants with an anti-FGF7 antibody resulted in a partial inhibition of mesenchyme-induced SP-C promoter transactivation. Immunoreactivity for Delta and Lunatic fringe, components of the Notch pathway that regulates cell differentiation, was downregulated in the heterotypic recombinants. In contrast, Hes1 mRNA expression was increased in these recombinants. Cumulatively, these results suggest that at late fetal gestation, distal lung epithelial cells are not fully committed to a specific phenotype and still have the plasticity to respond to various signals. Their alveolar phenotype is likely maintained by Notch/Notch ligand interactions and mesenchymal factors, including FGF7.     

Overexpression of Smurf1 negatively regulates mouse embryonic lung branching morphogenesis by specifically reducing Smad1 and Smad5 proteins

Early embryonic lung branching morphogenesis is regulated by many growth factor-mediated pathways. Bone morphogenetic protein 4 (BMP4) is one of the morphogens that stimulate epithelial branching in mouse embryonic lung explant culture. To further understand the molecular mechanisms of BMP4-regulated lung development, we studied the biological role of Smad-ubiquitin regulatory factor 1 (Smurf1), an ubiquitin ligase specific for BMP receptor-regulated Smads, during mouse lung development. The temporo-spatial expression pattern of Smurf1 in mouse embryonic lung was first determined by quantitative real-time PCR and immunohistochemistry. Overexpression of Smurf1 in airway epithelial cells by intratracheal introduction of recombinant adenoviral vector dramatically inhibited embryonic day (E) 11.5 lung explant growth in vitro. This inhibition of lung epithelial branching was restored by coexpression of Smad1 or by addition of soluble BMP4 ligand into the culture medium. Studies at the cellular level show that overexpression of Smurf1 reduced epithelial cell proliferation and differentiation, as documented by reduced PCNA-positive cell index and by reduced mRNA levels for surfactant protein C and Clara cell protein 10 expression. Further studies found that overexpression of Smurf1 reduced BMP-specific Smad1 and Smad5, but not Smad8, protein levels. Thus overexpression of Smurf1 specifically promotes Smad1 and Smad5 ubiquitination and degradation in embryonic lung epithelium, thereby modulating the effects of BMP4 on embryonic lung growth.