Hrs regulates the endocytic sorting of the fibroblast growth factor receptor 2b

The keratinocyte growth factor receptor or fibroblast growth factor receptor 2b (KGFR/FGFR2b) is activated by the specific interaction with the keratinocyte growth factor (KGF/FGF7), which targets the receptor to the degradative pathway, and the fibroblast growth factor 10 (FGF10/KGF2), which drives the receptor to the juxtanuclear recycling route. Hrs plays a key role in the regulation of the endocytic degradative transport of ubiquitinated receptor tyrosine kinases, but the direct involvement of this protein in the regulation of FGFR endocytosis has not been investigated yet. We investigated here the possible role of Hrs in the alternative endocytic pathways of KGFR. Quantitative immunofluorescence microscopy and biochemical analysis showed that both overexpression and siRNA interference of Hrs inhibit the KGF-triggered KGFR degradation, blocking receptor transport to lysosomes and causing its rapid reapparance at the plasma membrane. In contrast, the FGF10-induced KGFR targeting to the recycling compartment is not affected by Hrs overexpression or depletion. Coimmunoprecipitation approaches indicated that Hrs is recruited to KGFR only after KGF treatment, although it is not tyrosine phosphorylated by the ligand. In conclusion, Hrs regulates the KGFR degradative pathway, but not its juxtanuclear recycling transport. In addition, the results suggest that Hrs recruitment to the receptor, but not its ligand-induced phosphorylation, could be required for its function.     

E2 Polyubiquitin-conjugating Enzyme Ubc13 in Keratinocytes Is Essential for Epidermal Integrity

The E2 polyubiquitin-conjugating enzyme Ubc13 is a mediator of innate immune reactions. Ubc13 mediates the conjugation of keratin (K)63-linked polyubiquitin chains onto TNF receptor-associated factor 6 and IKKγ during NF-κB activation. In contrast to K48-linked polyubiquitin chains, K63-linked polyubiquitin chains function in nonproteasomal biological processes. Although Ubc13 has been shown to be critical for Toll-like receptor (TLR) and IL-1 receptor signaling, the function of Ubc13 in the epidermis has not been studied. We generated keratinocyte-specific Ubc13-deficient mice (Ubc13^flox/floxK5-Cre). At birth, the skin of the Ubc13^flox/floxK5-Cre mice was abnormally shiny and smooth; in addition, the mice did not grow and died by postnatal day 2. Histological analysis showed atrophy of the epidermis with keratinocyte apoptosis. Immunohistochemical analyses revealed reduced proliferation, abnormal differentiation, and apoptosis of keratinocytes in the Ubc13^flox/floxK5-Cre mouse epidermis. In culture, Ubc13^flox/floxK5-Cre keratinocyte growth was impaired, and spontaneous cell death occurred. Moreover, the deletion of Ubc13 from cultured Ubc13^flox/flox keratinocytes by means of an adenoviral vector carrying Cre recombinase also resulted in spontaneous cell death. Therefore, Ubc13 is essential for keratinocyte growth, differentiation, and survival. Analyses of intracellular signaling revealed that the IL-1 and TNF-induced activation of JNK, p38, and NF-κB pathways was impaired in Ubc13^flox/floxK5-Cre keratinocytes. In conclusion, Ubc13 appears to be essential for epidermal integrity in mice.     

Dual processing of FAT1 cadherin protein by human melanoma cells generates distinct protein products

The giant cadherin FAT1 is one of four vertebrate orthologues of the Drosophila tumor suppressor fat. It engages in several functions, including cell polarity and migration, and in Hippo signaling during development. Homozygous deletions in oral cancer suggest that FAT1 may play a tumor suppressor role, although overexpression of FAT1 has been reported in some other cancers. Here we show using Northern blotting that human melanoma cell lines variably but universally express FAT1 and less commonly FAT2, FAT3, and FAT4. Both normal melanocytes and keratinocytes also express comparable FAT1 mRNA relative to melanoma cells. Analysis of the protein processing of FAT1 in keratinocytes revealed that, like Drosophila FAT, human FAT1 is cleaved into a non-covalent heterodimer before achieving cell surface expression. The use of inhibitors also established that such cleavage requires the proprotein convertase furin. However, in melanoma cells, the non-cleaved proform of FAT1 is also expressed at the cell surface together with the furin-cleaved heterodimer. Moreover, furin-independent processing generates a potentially functional proteolytic product in melanoma cells, a persistent 65-kDa membrane-bound cytoplasmic fragment no longer in association with the extracellular fragment. In vitro localization studies of FAT1 showed that melanoma cells display high levels of cytosolic FAT1 protein, whereas keratinocytes, despite comparable FAT1 expression levels, exhibited mainly cell-cell junctional staining. Such differences in protein distribution appear to reconcile with the different protein products generated by dual FAT1 processing. We suggest that the uncleaved FAT1 could promote altered signaling, and the novel products of alternate processing provide a dominant negative function in melanoma.     

小鼠KGF基因毛囊特异性表达载体的构建及mESC脂质体悬浮转染条件的优化

旨在构建小鼠角质细胞生长因子(KGF)真核表达载体pCDsR-UKA,通过脂质体转染法转染小鼠胚胎干细胞( mESC),并进一步优化其转染条件,最终获得可以正常生长并稳定表达红色荧光蛋白的转KGF基因的ES细胞.利用RTPCR技术扩增小鼠KGF基因cDNA并构建表达载体pCDsR-UKA (6.6 kb),经鉴定正确的重组质粒DNA用脂质体包裹后转染mESC.从小鼠成纤维细胞cDNA扩增出891 bp的KGF基因片段与UHS启动子和BGH polyA序列成功重组到pCDsRed2载体中.经酶切和DNA测序验证,插入载体的DNA片段为KGF基因且方向正确.采用脂质体法优化转染条件,mESC最高转染效率达到(34.4±4.1)％.经G418筛选的转基因ES细胞通过PCR鉴定证实外源基因已整合在ES细胞基因组中.成功获得了小鼠KGF基因片段,以及真核表达载体pCDsR-UKA,经优化的脂质体悬浮法转染条件,在六孔板中当DNA与脂质体比例为3:10时,可获得最佳转染效率且不改变ES细胞的生长状态,经筛选获得了转基因ES细胞克隆.为下一步通过四倍体补偿技术获得ES小鼠提供了转基因ES细胞.     

Activation of VEGFR-2 signaling in response to moderate dose of ultraviolet B promotes survival of normal human keratinocytes

Mounting evidence indicates that signaling via VEGF receptors (VEGFRs) extends beyond blood vessel formation. Recently, VEGFRs are also found to be constitutively expressed in keratinocytes and epidermal appendages. Here, we show that the expression of VEGFRs (including VEGFR-1, VEGFR-2, and NRP-1) was significantly enhanced by moderate dose of ultraviolet B (UVB) in normal human keratinocytes and epidermis. The elevated expression of VEGFRs by UVB was independent of autocrine stimulation by their natural ligand, VEGF, but mainly mediated through hypoxia and oxidative stress. Moderate dose UVB also promoted tyrosine phosphorylation of VEGFR-1 and VEGFR-2, this effect was again VEGF independent. Both α and δ isoforms of protein kinase C (PKC) were required for UVB-induced phosphorylation of VEGFR-1, but only the δ isoform was required for VEGFR-2 phosphorylation. The phosphorylation of VEGFRs or isoforms of PKC was completely inhibited by PP2, a specific inhibitor for Src family kinases (SFKs), indicating that SFKs are upstream of PKC and VEGFRs. Moderate dose UVB-induced VEGF exerted an anti-apoptotic effect for keratinocytes, whereas high dose UVB-induced VEGF played as an inflammatory factor. Of note, neutralization of VEGFR-2 but not VEGFR-1 exacerbated UVB-induced cell death and reduced survival of keratinocytes. Furthermore, VEGFR-2 neutralization inhibited the activation of ERK1/2 and Akt by UVB, suggesting that VEGFR-2 signaling was involved in the pro-survival mechanism via ERK1/2 and PI3-K/Akt pathway. Taken together, we demonstrate for the first time that VEGFR-2 signaling is activated and promotes survival of keratinocytes under moderate dose of UVB irradiation.     

Inhibition of cholesterol transport into skin cells in cultures by phytosterol-loaded microemulsion

Cholesterol and plant phytosterols are lipophilic compounds solubilized by intestinal micelles in a competitive manner. In this work, we used radioactive cholesterol- and phytosterol-loaded oil-in-water microemulsions to follow their incorporation and mutual competition in HaCaT keratinocytes, SZ95 sebocytes, and skin pieces in cultures. Dynamic light scattering showed homogenous nanostructures of 10.5+/-1.5 nm diameter and cryo-transmission electron microscopy confirmed the presence of uniform spherical droplets of 7.0+/-1.0 nm diameter. Up to 320 nmol/ml of cholesterol can be solubilized and transported into cells with minimal toxic effect by 0.5 wt% nanodroplets in a cell medium. Phytosterols inhibit incorporation of cholesterol into cells, in vitro, at molar ratios (phytosterols/cholesterol) of 4 and above. The loaded nanodroplets accumulate in intracellular vesicles (presumably endosomes). No metabolic conversion of cholesterol or phytosterols was found in these cells, in vitro, after 24 h, at 37 degrees C.     

Granulocyte‐Macrophage Colony‐Stimulating Factor (GM‐CSF) Controls the Proliferation and Differentiation of Mouse Epidermal Melanocytes from Pigmented Spots Induced by Ultraviolet Radiation B

Repeated exposure of ultraviolet radiation B (UVB) on the dorsal skin of hairless mice induces the development of pigmented spots long after its cessation. The proliferation and differentiation of epidermal melanocytes in UVB‐induced pigmented spots are greatly increased, and those effects are regulated by keratinocytes rather than by melanocytes. However, it remains to be resolved what factor(s) derived from keratinocytes are involved in regulating the proliferation and differentiation of epidermal melanocytes. In this study, primary melanoblasts (c. 80%) and melanocytes (c. 20%) derived from epidermal cell suspensions of mouse skin were cultured in a basic fibroblast growth factor‐free medium supplemented with granulocyte‐macrophage colony‐stimulating factor (GM‐CSF). GM‐CSF induced the proliferation and differentiation of melanocytes in those keratinocyte‐depleted cultures. Moreover, an antibody to GM‐CSF inhibited the proliferation of melanoblasts and melanocytes from epidermal cell suspensions derived from the pigmented spots of UV‐irradiated mice, but not from control mice. Further, the GM‐CSF antibody inhibited the proliferation and differentiation of melanocytes co‐cultured with keratinocytes derived from UV‐irradiated mice, but not from control mice. The quantity of GM‐CSF secreted from keratinocytes derived from the pigmented spots of UV‐irradiated mice was much greater than that secreted from keratinocytes derived from control mice. Moreover, immunohistochemistry revealed the expression of GM‐CSF in keratinocytes derived from the pigmented spots of skin in UV‐irradiated mice, but not from normal skin in control mice. These results suggest that GM‐CSF is one of the keratinocyte‐derived factors involved in regulating the proliferation and differentiation of mouse epidermal melanocytes from UVB‐induced pigmented spots.     

Normal function of HERG K+ channels expressed in HEK293 cells requires basal protein kinase B activity

In this study, we show that ultraviolet B radiation (UVB)-induced apoptosis of human keratinocytes involves mainly cytosolic signals with mitochondria playing a central role. Overexpression of Bcl-2 inhibited UVB-induced apoptosis by blocking the early generation of reactive oxygen species, mitochondrial cardiolipin degradation and cytochrome c release, without affecting Fas ligand (FasL)-induced cell death. It also prevented the subsequent activation of procaspase-3 and -8 as well as Bid cleavage in UVB-treated cells. Comparative analysis of UVB and FasL death pathways revealed a differential role and mechanism of caspase activation, with the UVB-induced activation of procaspase-8 only being a bystander cytosolic event rather than a major initiator mechanism, as is the case for the FasL-induced cell death. Our results suggest that Bcl-2 overexpression, by preventing reactive oxygen species production, helps indirectly to maintain the integrity of lysosomal membranes, and therefore inhibits the release of cathepsins, which contribute to the cytosolic activation of procaspase-8 in UVB-irradiated keratinocytes.     

alpha-tocopherol increases the intracellular glutathione level in HaCaT keratinocytes

-Tocopherol is a lipophilic vitamin that exhibits an antioxidative activity. The purpose of this study was to clarify the roles of -tocopherol in the regulation of intracellular glutathione (GSH) levels in HaCaT keratinocytes. When HaCaT keratinocytes were cultivated with -tocopherol for 24 h, the intracellular GSH was increased at every concentration of -tocopherol tested. Furthermore, the HaCaT keratinocytes cultured with -tocopherol at 50 μM for 24 h exhibited resistance against H 2 O 2 . However, a short exposure of HaCaT keratinocytes to -tocopherol for 1 h did not influence either the GSH level or the resistance to H 2 O 2 . These findings suggest that GSH, which is inductively synthesized by -tocopherol, effectively reduces exogenous oxidative stress. To evaluate the effect of -tocopherol on the GSH level, BSO, which is a typical inhibitor of γ-glutamylcysteine synthetase ( γ-GCS), was used. When BSO was added to HaCaT keratinocytes, no action of -tocopherol on the GSH level was observed. On the other hand, -tocopherol resulted in the up-regulation of γ-GCS-HS (heavy subunit) mRNA. In addition, water soluble -tocopherol derivatives ( -tocopherol phosphate and trolox) caused no changes in GSH level. From these results, it was concluded that -tocopherol increases the intracellular GSH level of HaCaT keratinocytes through the up-regulation of γ-GCS-HS mRNA.