The influence of a synthetic growth hormone-releasing hormone analogue G11 and opioid peptide biphalin on selected fibroblasts parameters relevant to wound healing

The treatment of hard-to-heal chronic wounds is still a major medical problem and an economic and social burden. In this work, we examine the proregenerative potential of two peptides, G11 (a trypsin-resistant analogue of growth hormone-releasing hormone [GHRH]) and biphalin (opioid peptide), and their combination in vitro on human fibroblasts (BJ). G11, biphalin and their combination exhibited no toxicity against BJ cells. On the contrary, these treatments significantly stimulated proliferation and migration of fibroblasts. Under inflammatory conditions (LPS-induced BJ cells), we noticed that the tested peptides decreased the levels of cyclooxygenase-2 (COX-2), inducible nitric oxide synthase (iNOS) and interleukin 1β (IL-1β). This was correlated with diminished phosphorylation levels of p38 kinase, but not those of ERK1/2. We found also that G11, biphalin and their combination activated the ERK1/2 signalling pathway, which has been previously implicated in promigratory activity of some regeneration enhancers, including opioids or GHRH analogues. Potential application of their combination requires further work, in particular in vivo experiments, in which the organism-level relevance of the discussed cell-level effects would be proven and, additionally, analgesic action of the opioid ingredient could be quantified.     

重组融合多肽hEGF-AWRK6的纯化及对小鼠烫伤感染创面愈合的影响

旨在研究重组融合多肽hEGF-AWRK6(EK)对烫伤模型小鼠感染创面的治疗功效。采用大肠杆菌表达系统表达、纯化融合多肽EK,抑菌实验检测EK抑菌活性;构建小鼠II度烫伤和铜绿假单胞菌感染模型,实验组创面滴注EK(30 mg/L),以PBS、庆大霉素(30 mg/L)、烫伤膏(10 mg/L)为对照,计算烫伤后创面愈合率及菌落数;伤后10 d,取各组小鼠的伤口及周边皮肤进行HE染色及胶原蛋白的Western blotting检测,分析创面病理组织结构。实验结果纯化得到了具有抑菌活性的重组表达融合肽EK;伤后6 d始,EK组小鼠创面菌落数少于对照组,差异极显著(P0.01);EK组小鼠烫伤愈合率显著高于PBS对照组(P0.01);与对照组相比,EK组小鼠创面真皮层细胞排列规则,再上皮化较快,毛囊生长较多,Ⅰ型胶原蛋白表达显著增加。结果表明EK具有抑制小鼠烫伤创面感染、促创面愈合功效,具有开发成为治疗烧伤药物的潜力。     

Dissecting the influence of cellular senescence on cell mechanics and extracellular matrix formation in vitro

Tissue formation and healing both require cell proliferation and migration, but also extracellular matrix production and tensioning. In addition to restricting proliferation of damaged cells, increasing evidence suggests that cellular senescence also has distinct modulatory effects during wound healing and fibrosis. Yet, a direct role of senescent cells during tissue formation beyond paracrine signaling remains unknown. We here report how individual modules of the senescence program differentially influence cell mechanics and ECM expression with relevance for tissue formation. We compared DNA damage-mediated and DNA damage-independent senescence which was achieved through over-expression of either p16^Ink4a or p21^Cip1 cyclin-dependent kinase inhibitors in primary human skin fibroblasts. Cellular senescence modulated focal adhesion size and composition. All senescent cells exhibited increased single cell forces which led to an increase in tissue stiffness and contraction in an in vitro 3D tissue formation model selectively for p16 and p21-overexpressing cells. The mechanical component was complemented by an altered expression profile of ECM-related genes including collagens, lysyl oxidases, and MMPs. We found that particularly the lack of collagen and lysyl oxidase expression in the case of DNA damage-mediated senescence foiled their intrinsic mechanical potential. These observations highlight the active mechanical role of cellular senescence during tissue formation as well as the need to synthesize a functional ECM network capable of transferring and storing cellular forces.     

ZRF1 is a novel S6 kinase substrate that drives the senescence programme

The inactivation of S6 kinases mimics several aspects of caloric restriction, including small body size, increased insulin sensitivity and longevity. However, the impact of S6 kinase activity on cellular senescence remains to be established. Here, we show that the constitutive activation of mammalian target of rapamycin complex 1 (mTORC1) by tuberous sclerosis complex (TSC) mutations induces a premature senescence programme in fibroblasts that relies on S6 kinases. To determine novel molecular targets linking S6 kinase activation to the control of senescence, we set up a chemical genetic screen, leading to the identification of the nuclear epigenetic factor ZRF1 (also known as DNAJC2, MIDA1, Mpp11). S6 kinases phosphorylate ZRF1 on Ser47 in cultured cells and in mammalian tissues in vivo. Knock-down of ZRF1 or expression of a phosphorylation mutant is sufficient to blunt the S6 kinase-dependent senescence programme. This is traced by a sharp alteration in p16 levels, the cell cycle inhibitor and a master regulator of senescence. Our findings reveal a mechanism by which nutrient sensing pathways impact on cell senescence through the activation of mTORC1-S6 kinases and the phosphorylation of ZRF1.     

Cell-wall damage activates DOF transcription factors to promote wound healing and tissue regeneration in Arabidopsis thaliana

1. Download : Download high-res image (172KB)
2. Download : Download full-size image

     

Cellular aging beyond cellular senescence: Markers of senescence prior to cell cycle arrest in vitro and in vivo

The field of research on cellular senescence experienced a rapid expansion from being primarily focused on in vitro aspects of aging to the vast territories of animal and clinical research. Cellular senescence is defined by a set of markers, many of which are present and accumulate in a gradual manner prior to senescence induction or are found outside of the context of cellular senescence. These markers are now used to measure the impact of cellular senescence on aging and disease as well as outcomes of anti‐senescence interventions, many of which are at the stage of clinical trials. It is thus of primary importance to discuss their specificity as well as their role in the establishment of senescence. Here, the presence and role of senescence markers are described in cells prior to cell cycle arrest, especially in the context of replicative aging and in vivo conditions. Specifically, this review article seeks to describe the process of “cellular aging”: the progression of internal changes occurring in primary cells leading to the induction of cellular senescence and culminating in cell death. Phenotypic changes associated with aging prior to senescence induction will be characterized, as well as their effect on the induction of cell senescence and the final fate of cells reviewed. Using published datasets on assessments of senescence markers in vivo, it will be described how disparities between quantifications can be explained by the concept of cellular aging. Finally, throughout the article the applicational value of broadening cellular senescence paradigm will be discussed.     

Temporal study of the activity of matrix metalloproteinases and their endogenous inhibitors during wound healing

The restoration of functional connective tissue is a major goal of the wound healing process. This regenerative event requires the deposition and accumulation of collagenous and noncollagenous matrix molecules as well as the remodelling of extracellular matrix (ECM) by matrix metalloproteinases (MMPs). In this study, we have utilized substrate gel electrophoresis, radiometric enzyme assays, and Western blot analyses to determine the temporal pattern of appearance and activity of active and latent MMPs and their inhibitors during the entire healing process in a partial thickness wound model. Through the use of substrate gel electrophoresis, we studied the appearance of proteolytic bands whose molecular weight was consistent with their being members of the MMP family of enzymes. Proteolytic bands whose molecular weight is consistent with both the active and latent forms of MMP-2 (72 kDa, Type IV gelatinase) were detected in wound fluid of days 1–7 after wounding. The number of active MMP-2 species detectable in wound fluid was greatest during days 4–6 after wounding. The most prominent proteolytic band detected each day migrated with a molecular weight consistent with it being the latent form of MMP-9 (92 kDa, Type V pro-collagenase). In contrast to MMP-2, the active form of this enzyme was never detected. The presence of MMP-1 (interstitial collagenase) was detected by immunoblot in the wound fluid from days 1–6 post-injury. Using a radiometric enzyme assay for collagenase inhibitory activity we have also determined the time course of activity of endogenous matrix metalloproteinase inhibitors. We have correlated these data to the known cellular events occurring in the wound during this time period as well. This study establishes a prototypical pattern of MMP appearance in normal wound healing. It may also provide potential intervention sites for the therapeutic use of inhibitors of aberrant MMP activities which characterize chronic wounds. © 1996 Wiley-Liss, Inc.     

结肠癌组织中p-p70S6K的表达及临床意义

目的:检测p-p70S6K在结肠癌组织中的表达并探讨其临床意义。方法:选取40例结肠癌组织蜡块以及40例同一患者的正常结肠组织蜡块进行免疫组化实验,其中又随机选取3组新鲜结肠癌组织和正常结肠组织,通过免疫印迹(Western blot)技术检测p-p70S6K在各组织中的表达情况。结果:在免疫组化实验中,癌组织阳性28例,阴性12例,阳性率为70%,正常结肠组织阳性14例,阴性26例,阳性率为35%,采用Pearson卡方检验,得出x2=9.825,P=0.0020.05,说明癌组织与正常结肠组织中p-p70S6K的表达差异有统计学意义;在免疫印迹实验中,以甘油醛-3-磷酸脱氢酶(GAPDH)为内参,重复试验三次,均显示目标蛋白(p-p70S6K)分子量约70 KD,癌组织中p-p70S6K表达较正常结肠组织明显增加,两组表达水平的比较采用t检验,得出P=0.0250.05,说明差异具有统计学意义。结论:p-p70S6K在结肠癌组织中异常表达,提示该分子在结肠癌的发生、发展过程中具有重要的调控作用,进一步的研究可为结肠癌的靶向治疗提供分子生物学基础。     

Specific interaction between S6K1 and CoA synthase: a potential link between the mTOR/S6K pathway, CoA biosynthesis and energy metabolism

Ribosomal protein S6 kinase (S6K) is a key regulator of cell size and growth. It is regulated via phosphoinositide 3-kinases (PI3K) and the mammalian target of rapamycin (mTOR) signaling pathways. We demonstrate for the first time that CoA synthase associates specifically with S6K1. The association was observed between native and transiently overexpressed proteins in vivo, as well as by BIAcore analysis in vitro. The sites of interaction were mapped to the C-terminal regions of both CoA synthase and S6K1. In vitro studies indicated that the interaction does not affect their enzymatic activities and that CoA synthase is not a substrate for S6 kinase. This study uncovers a potential link between mTor/S6K signaling pathway and energy metabolism through CoA and its thioester derivatives, but its physiological relevance should be further elucidated.     

In vivo terahertz reflection imaging of human scars during and after the healing process

We use terahertz imaging to measure four human skin scars in vivo. Clear contrast between the refractive index of the scar and surrounding tissue was observed for all of the scars, despite some being difficult to see with the naked eye. Additionally, we monitored the healing process of a hypertrophic scar. We found that the contrast in the absorption coefficient became less prominent after a few months post‐injury, but that the contrast in the refractive index was still significant even months post‐injury. Our results demonstrate the capability of terahertz imaging to quantitatively measure subtle changes in skin properties and this may be useful for improving scar treatment and management.

     

Ultrastructural features of the process of wound healing after tail and limb amputation in lizard

Alibardi, L. 2010. Ultrastructural features of the process of wound healing after tail and limb amputation in lizard.—Acta Zoologica (Stockholm)  91 : 306–318 Wound healing and re‐epitelization after amputation of tail and limb in lizard have been studied by electron microscopy to understand the cytological base of immunity to infection in this species. After 2 days post‐amputation in both limb and tail stumps, numerous granulocytes are accumulated over the stump, and participate to the formation of the scab. Bacteria remain confined to the scab or are engulfed by leukocytes and migrating keratinocytes located underneath the scab. Bacteria are degraded within lysosomes present in these cells and are not observed among mesenchymal cells or in blood vessels of the regenerative blastema. Granulocytes, migrating keratinocytes, and later macrophages form an effective barrier responsible for limiting microbe penetration. The innate immunity in lizard is very effective in natural (dirty) condition and impedes the spreading of infection to inner tissues. While the complete re‐epitelization of the tail stump underneath the scab requires 4–7 days, the same process in the limb requires 8–18 or more days post‐amputation, depending from the level of amputation and the persistence of a protruding humerus or femurs on the stump surface. This delay produces the permanence of inflammatory cells such as granulocytes and macrophages in the limb stump for a much longer period than in the tail stump, a process that stimulates scarring.     

The lactate conundrum in wound healing: Clinical and experimental findings indicate the requirement for a rapid point-of-care diagnostic

The increasing prevalence of chronic wounds has significant financial implications for nations with advanced healthcare provision. Although the diseases that predispose to hard‐to‐heal wounds are recognized, their etiology is less well understood, partly because practitioners in wound management lack specialized diagnostic support. Prognostic indicators for healing may be inherent to wound biochemistry but remain invisible under routine clinical investigation; lactate is an example of this. In this study, lactate concentration in exudate obtained from 20 patients undergoing wound management in hospital was variable but in some cases approached or exceeded 20 mM. In vitro viability studies indicated that fibroblasts and endothelial cells tolerated low levels of lactate (1–10 mM), but cell viability was severely compromised by high lactate concentrations (=20 mM). Scratched monolayer experiments revealed that cell migration was affected earlier than viability in response to increasing lactate dose, and this was shown by immunocytochemistry to be associated with cytoskeletal disruption. A prototype enzyme‐based colorimetric assay for lactate generating a color change that was rapid in the context of clinical practise, and capable of functioning within a gel vehicle, was developed with point‐of‐care dipstick applications in mind. A randomized single‐blinded trial involving 30 volunteers and using a color chart to calibrate the assay demonstrated that lactate concentration could be reliably estimated with 5 mM precision; this suggesting that “physiological” and “pathological” lactate concentration could be distinguished. The present data suggest that a dipstick‐type colorimetric assay could comprise a viable diagnostic tool for identifying patients at‐risk from high‐wound lactate. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 917–924, 2012     

鹿茸角柄断面伤口无疤痕愈合过程中骨形态蛋白的表达及功能分析

为研究骨形态蛋白（bone morphogenetic proteins ,BMP）在鹿茸再生早期角柄断面伤口无疤痕愈合过程中的功能,本研究通过免疫组化技术对比分析了BMP 2 和BMP 4在正常皮肤及茸皮中的表达及分布差异,同时利用添加外源性蛋白分析了BMP 4对鹿真皮成纤维细胞和毛乳头细胞的影响。结果显示：(1)原代培养的真皮成纤维细胞表达波形蛋白阳性率几乎为100%;(2) BMP 2和BMP 4强烈表达于茸皮中新生毛囊的毛基质细胞中;(3) BMP 4可促进鹿真皮成纤维细胞向脂肪细胞转分化;(4) BMP 4可促进鹿真皮毛乳头细胞成团。以此推测BMP在鹿毛囊形成及伤口愈合过程中发挥重要作用。     

A numerical model of the fracture healing process that describes tissue development and revascularisation

A dynamic model was developed to simulate complex interactions of mechanical stability, revascularisation and tissue differentiation in secondary fracture healing. Unlike previous models, blood perfusion was included as a spatio-temporal state variable to simulate the revascularisation process. A 2D, axisymmetrical finite element model described fracture callus mechanics. Fuzzy logic rules described the following biological processes: angiogenesis, intramembranous ossification, chondrogenesis, cartilage calcification and endochondral ossification, all of which depended on local strain state and local blood perfusion. In order to evaluate how the predicted revascularisation depended on the mechanical environment, we simulated two different healing cases according to two groups of transverse metatarsal osteotomies in sheep with different axial stability. The model predicted slower revascularisation and delayed bony bridging for the less stable case, which corresponded well to the experimental observations. A revascularisation sensitivity analysis demonstrated the potential of the model to account for different conditions regarding the blood supply.     

A phospho-proteomic screen identifies novel S6K1 and mTORC1 substrates revealing additional complexity in the signaling network regulating cell growth

S6K1, a critical downstream substrate of mTORC1, has been implicated in regulating protein synthesis and a variety of processes that impinge upon cell growth and proliferation. While the role of the cytoplasmic p70^S6K1 isoform in the regulation of translation has been intensively studied, the targets and function of the nuclear p85^S6K1 isoform remain unclear. Therefore, we carried out a phospho-proteomic screen to identify novel p85^S6K1 substrates. Four novel putative p85^S6K1 substrates, GRP75, CCTβ, PGK1 and RACK1, and two mTORC1 substrates, ANXA4 and PSMA6 were identified, with diverse roles in chaperone function, ribosome maturation, metabolism, vesicle trafficking and the proteasome, respectively. The chaperonin subunit CCTβ was further investigated and the site of phosphorylation mapped to serine 260, a site located in the chaperonin apical domain. Consistent with this domain being involved in folding substrate interactions, we found that phosphorylation of serine 260 modulates chaperonin folding activity.     

mTOR/S6K1信号通路与胰岛素抵抗的关系及有氧运动对其影响的研究

目的:通过研究高脂饮食和有氧运动对胰岛素抵抗(IR)小鼠骨骼肌雷帕霉素靶蛋白/核糖体S6激酶1(mTOR/S6K1)通路的影响,试图为运动防治IR提供理论依据。方法:8周C57BL/6小鼠随机分为正常饮食组和高脂饮食组,每组各20只,高脂饮食组喂养8周后建立IR模型。随后将正常饮食组再次随机分为正常饮食安静组(NC)和正常饮食运动组(NE);高脂饮食组也随机分为高脂饮食安静组(HC)和高脂饮食运动组(HE)。各运动组进行为期6周、75%VO2max强度跑台训练,每天1次,每次60min,每周5次。实验结束后采用OGTT检测葡萄糖耐量,组织学检测胰岛形态变化,ELISA法检测血清空腹胰岛素水平,Northern blot、Western blot检测骨骼肌中mTOR和S6K1 mRNA和蛋白及其磷酸化蛋白pS6K1-Thr389的表达。结果:与NC组相比,HC组小鼠体重、空腹血清胰岛素值和胰岛β细胞团面积百分比均呈显著增加,且OGTT曲线显示糖耐量明显受损,然而6周有氧运动后以上各指标呈显著性降低,葡萄糖耐量也得到明显改善;且骨骼肌中mTOR、S6K1、pS6K1-Thr389 mRNA和蛋白表达均明显降低。结论:mTOR/S6K1信号通路与高脂饮食诱导IR的发生密切相关,有氧运动明显增加了机体组织对胰岛素的敏感性,推测有氧运动可能通过抑制mTOR/S6K1信号通路,增加IR小鼠骨骼肌的能量代谢从而改善IR。     

PKD1 is downregulated in non-small cell lung cancer and mediates the feedback inhibition of mTORC1-S6K1 axis in response to phorbol ester

Protein kinase D1 (PKD1) is increasingly implicated in multiple biological and molecular events that regulate the proliferation or invasiveness in several cancers. However, little is known about the expression and functions of PKD1 in non-small cell lung cancer (NSCLC). In the present study, 34 pairs of human NSCLC and matched normal bronchiolar epitheliums were enrolled and evaluated for PKD1 expression by quantitative real-time PCR. We showed that PKD1 was downregulated in 26 of 34 cancer tissues in comparison with matched normal epitheliums. Moreover, patients with venous invasion or lymph node metastasis showed significant lower expression of PKD1. Exposure of NSCLC A549 and H520 cells to the PKD family inhibitor kb NB 142-70(Kb), at concentrations that inhibited PKD1 activation, strikingly potentiated S6K1 phosphorylation at Thr³⁸⁹ and S6 phosphorylation at Ser^235/236 in response to phorbol ester (PMA). Knockdown of PKD1 with siRNAs strikingly enhanced S6K1 phosphorylation whereas constitutively active PKD1 resulted in the S6K1 activity inhibition. Furthermore, the PI3K inhibitors LY294002, BKM120 and MEK inhibitors U0126, PD0325901 blocked the enhanced S6K1 activity induced by Kb. Collectively, our results identify decreased expression of the PKD1 as a marker for NSCLC and the loss of PKD1 expression increases the malignant potential of NSCLC cells. This may be due to the function of PKD1 as a negative regulator of mTORC1-S6K1. Our results suggest that re-expression or activation of PKD1 might serve as a potential therapeutic target for NSCLC treatment.     

Cross-talk between Sirtuin and Mammalian Target of Rapamycin Complex 1 (mTORC1) Signaling in the Regulation of S6 Kinase 1 (S6K1) Phosphorylation

p70 ribosomal S6 kinase (S6K1), a major substrate of the mammalian target of rapamycin (mTOR) kinase, regulates diverse cellular processes including protein synthesis, cell growth, and survival. Although it is well known that the activity of S6K1 is tightly coupled to its phosphorylation status, the regulation of S6K1 activity by other post-translational modifications such as acetylation has not been well understood. Here we show that the acetylation of the C-terminal region (CTR) of S6K1 blocks mTORC1-dependent Thr-389 phosphorylation, an essential phosphorylation site for S6K1 activity. The acetylation of the CTR of S6K1 is inhibited by the class III histone deacetylases, SIRT1 and SIRT2. An S6K1 mutant lacking acetylation sites in its CTR shows enhanced Thr-389 phosphorylation and kinase activity, whereas the acetylation-mimetic S6K1 mutant exhibits decreased Thr-389 phosphorylation and kinase activity. Interestingly, relative to the acetylation-mimetic S6K1 mutant, the acetylation-defective mutant displays higher affinity toward Raptor, an essential scaffolding component of mTORC1 that recruits mTORC1 substrates. These observations indicate that sirtuin-mediated regulation of S6K1 acetylation is an additional important regulatory modification that impinges on the mechanisms underlying mTORC1-dependent S6K1 activation.     

The effect of the glycolipoprotein extract (G‐90) from earthworm Eisenia foetida on the wound healing process in alloxan‐induced diabetic rats

Diabetes is now regarded as a major public health problem. The number of patients is estimated to increase to over 439 million cases by 2030. One of the major health clinical problems in patients with diabetes patients is impaired wound healing. Diabetic foot ulcer is a major complication of diabetes mellitus in 12 to 25% of patients, which increases the risk of damage in the limbs or amputation. The earthworm Eisenia foetida glycolipoprotein (as known G‐90) is a blend of macromolecules with some biological properties including mitogenicity, anticoagulation, fibrinolysis, bacteriostatic and antioxidatiaon. Given the biological properties of G‐90, this study was conducted to investigate the effect of extract obtained from the homogenate of Eisenia foetida (G‐90) on the wound healing process in alloxan‐induced diabetic rats. The results of the present study revealed that treatment by using G‐90 can speed up the wound healing process, which is exactly similar to the effect of D‐panthenol treatment in rats. These findings also demonstrated that G‐90 treatment decreases the risk of infection in the wound site compared with D‐panthenol treatment. In addition, histological analysis indicated that a better extracellular matrix formation with increased fibroblast proliferation, neovascularization, collagen synthesis and early epithelial layer formation was observed in G‐90 treated group. Therefore, the G‐90 could be considered as a new wound healing agent introducing promising therapeutic approaches in both human and veterinary medicine. Copyright © 2016 John Wiley & Sons, Ltd.