Actin architecture of cultured human thyroid cancer cells: predictor of differentiation?

The actin cytoskeleton is important for cell structure and motility. A disordered actin architecture has been correlated with a high metastatic potential in melanoma, fibrosarcoma, and colon cancer models. Thyrotropin is known to induce growth and differentiation in cultured thyroid cells, whereas the carcinogenic phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) causes dedifferentiation and malignant transformation in many cell lines. We therefore assessed the effect of thyrotropin and TPA on the actin architecture of FTC-133 human follicular thyroid cancer cells in continuous culture. Staining of filamentous actin with rhodamine phalloidin showed that 1 mU/ml or 30 mU/ml thyrotropin-induced actin polymerization was detectable at 1 hour but more notable at 24 hours. Similarly TPA (0.008 to 10 mumol/L) caused rapid actin fiber disruption and redistribution to the cell periphery. Secondary antibody staining for alpha-actinin, a protein that binds and crosslinks actin, was more prominent after treatment with thyrotropin but decreased after TPA. These findings indicate that the actin cytoskeleton has a dynamic response to trophic factors. Thyrotropin promoted actin polymerization, but TPA caused depolymerization. These effects may correlate with cellular alpha-actinin levels. Actin architecture may therefore reflect the state of differentiation of thyroid tumor cells.     

Prolactin directly stimulates citrate production and mitochondrial aspartate aminotransferase of prostate epithelial cells

Prolactin, in vitro, significantly increased citrate production, mAAT (mitochondrial aspartate aminotransferase) and pmAAT (precursor form of mAAT) activity of prostate epithelial cells derived from rat lateral prostate (LP) and pig prostate cultures. In contrast, prolactin had no effect on the cytosolic isozyme, cAAT. This prolactin effect appeared to be independent of testosterone. The phorbol ester TPA (12-O-tetradecanoyl-phorbol-13-acetate) induced the same effects as prolactin thereby indicating the involvement of protein kinase C. This report demonstrates that prolactin directly regulates citrate production of prostate epithelial cells and the availability of an in vitro model to elucidate the mechanism of action of prolactin.     

Phorbol esters modulate the high Ca2(+)-stimulated accumulation of inositol phosphates in bovine parathyroid cells

We examined the effects of TPA on the high Ca2(+)-stimulated accumulation of inositol phosphates in bovine parathyroid cells to determine whether protein kinase C modulates phosphoinositide turnover in a fashion similar to that observed in other cell types stimulated by more classic Ca2+ mobilizing hormones. Following exposure of parathyroid cells to TPA (10(-6) M) for 10 or 30 minutes, there was a time- and dose-dependent inhibition of the accumulation of inositol monophosphate (IP), inositol bisphosphate (IP2) and inositol trisphosphate (IP3) stimulated by 3 mM Ca2+. Half the maximal observed inhibition took place at 1-10 nM TPA, with 50-60% inhibition of high Ca2(+)-stimulated accumulation of inositol phosphates at 10(-6) M TPA. The active phorbol ester, 4 beta-phorbol didecanoate, produced similar effects; the inactive derivative, 4 alpha-phorbol didecanoate, was without effect. When parathyroid cells were exposed to TPA (10(-6) M) for varying times and were then incubated with high (3 mM) Ca2+, inhibition of inositol phosphate accumulation was observed with 10 or 30 minutes preincubation. In contrast, preincubation of cells with TPA for 3 or 18 h markedly enhanced the high (3 mM) Ca2(+)-induced increase in inositol phosphates. In cells preincubated with TPA for 18 h, binding sites for [3H]phorbol dibutyrate and total protein kinase C (PKC) activity were reduced by greater than 95% and by 71%, respectively, consistent with downregulation of the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)     

Phorbol ester (TPA) reduces prostaglandin E2-stimulated cAMP production by desensitization of prostaglandin E2 receptors in a clonal osteoblast-like cell line,MOB 3-4

Summary A clonal osteoblast-like cell line, MOB 3-4, increased cAMP production in response to prostaglandin E₂ (PGE₂) (5–500 ng/ml). The purpose of this study was to show the effects of tumor-promoting phorbol ester (e.g., 12-O-tetradecanoylphorbol 13-acetate, TPA) on basal and PGE₂-stimulated cAMP production and the affinity of PGE₂ receptors in the cells. Pretreatment with TPA (1 nM–10 μM) for 30 minutes increased basal cAMP production, whereas it markedly reduced the PGE₂-stimulated cAMP production in the presence of 0.1 mM isobuthylmethyl xanthine. Both the TPA increase and reduction were dose- and time-dependent. However, TPA exerted no effect on forskolinor cholera toxin-stimulated cAMP production. Copretreatment with TPA and H-7, an inhibitor of protein kinase C (PKC), prevented the TPA-induced increase in basal cAMP production, whereas it did not prevent the reduction of the PGE₂-stimulated cAMP production. On the other hand, TPA (0.1–10 μM) decreased³H-PGE₂ binding in a dose- and time-dependent manner. Scatchard analysis revealed that TPA decreased the apparent affinity of PGE₂ receptors without effect on their apparent number. In addition, 1-oleoyl-2-acetylglycerol (12.6 μM), a synthetic diacylglycerol analog, did not mimic the TPA action on³H-PGE₂ binding. Thus, TPA at relatively high concentrations appeared to increase basal cAMP production by a PKC-mediated mechanism, and it appeared to directly act on PGE₂ receptors to decrease their apparent affinity and thereby reduce the PGE₂-stimulated cAMP production in the clonal osteoblast-like MOB 3-4 cell line.     

Hypoxia-mediated impaired differentiation by LLC-PK1 cells: evidence based on the protein kinase C profile.

We recently reported that mild hypoxia in LLC-PK1 cells, grown in standard fashion under a still layer of overlying medium at 5% CO2/18% O2 environment, result in decreased oxidative metabolism and impaired differentiated functions in comparison to adequately oxygenated cultures maintained either under a higher oxygen (36% O2) environment or conditions of continuous rocking of the media fluid. In the present study, subcellular distribution of a regulatory enzyme protein kinase C (PKC) was examined between hypoxic still and normoxic rocked LLC-PK1 cells. Subconfluent cultures of hypoxic LLC-PK1 cells exhibited significantly lower and predominantly membrane-bound PKC activity in comparison to mostly cytosolic localization of this enzyme in normoxic rocked cells. One hour of exposure of adequately oxygenated-rocked LLC-PK1 cells with the phorbol ester TPA, a dedifferentiating agent that did not effect the cell ATP content, resulted in significant inhibition of dome formation and sodium-dependent glucose transport activity, a partial loss of pH-responsive ammoniagenesis, and almost complete translocation of protein kinase C activity from cytosol to the membrane pool; all of which resembles the behavior of hypoxic still cultured cells. In addition, acute re-oxygenation of hypoxic still cultures by rocking the media fluid for one hour resulted in an increase in cell ATP content to the cellular levels of ATP observed in normoxic rocked cells. However, all the parameters of differentiation were unaffected by re-oxygenation. These studies support the notion that hypoxia can act in some primary fashion, independent of its effects on energy metabolism, to impair cellular differentiation in LLC-PK1 cells. They also raise the possibility that activation of protein kinase C may act as an important mediator in this process.     

Involvement of protein kinase C in growth regulation of human meningioma cells

Summary In order to investigate the possible role of protein kinase C (PKC)-mediated signal pathways in growth regulation of meningiomas, we examined the effect of two PKC-activating phorbol esters, 12-O-tetradecanoyl-13-phorbol acetate (TPA) and phorbol 12, 13-dibutyrate (PDBu), and PKC inhibitor, staurosporine, on cell proliferation using low-passage human meningioma cells in culture. TPA (0.1 to 100 ng/ml) caused a dose-dependent stimulation of cell proliferation in six of eight meningioma cultures. At optimal concentrations of TPA, the cell growth ranged from 113% to 251% versus control. In contrast, PDBu (0.1 to 100 ng/ml) caused a significant inhibition of cell proliferation in three of five meningioma cultures. At optimal concentrations of PDBu, the cell growth ranged from 52% to 79% of control. Staurosporine exhibited a stimulation of cell proliferation (135% to 178%) in three of four meningioma cultures studied at a concentration of 10^–10 to 10^–9M, although a tendency of growth inhibition was observed at a lower concentration. A time course of DNA synthesis in response to TPA, assessed by [³H] thymidine incorporation studies, revealed a time- and dose-dependent stimulation and/or inhibition which further depended on the serum concentration of the growth medium used. The overall results indicate that PKC-mediated signal pathways are closely involved in growth regulation of human meningioma cells. The results further suggest that the signalling processes consist of complex mechanisms which await to be elucidated.     

Diacylglycerol modulation of insulin receptor from cultured human mononuclear cells. Effects on binding and internalization

Tumor-promoting phorbol esters alter binding of growth factors and hormones to their specific receptors. Action of diacylglycerols, endogenous phorbol ester analogues, on 125I-labeled insulin binding to its receptor from human cells was therefore investigated. A variety of 1,2-diacylglycerols and 1,3-diacylglycerols inhibited 125I-insulin binding to intact human monocyte-like (U-937) and lymphoblastoid (IM-9) cells in a dose-, time-, and temperature-dependent manner within 30 sec at 37 degrees C in a fashion analogous to that of the tumor-promoting phorbol diester 12-O-tetradecanoylphorbol-13-acetate (TPA). Inhibition of insulin binding by diacylglycerols, analyzed by Scatchard plot, seems to be due to altered binding affinity of the insulin receptor. Diacylglycerol effects were reversible, were seen regardless of the order of addition of 125I-insulin and diacylglycerols, and were demonstrated only with occupied insulin receptors. Corresponding fatty acids or phospholipids did not affect specific insulin binding to the intact U-937 cells. Diacylglycerols also inhibited binding of 125I-insulin-like growth factor (IGF) I but not that of 125I-human growth hormone (HGH) to the human cells. The non-tumor-promoting phorbols (phorbol, 4-alpha-phorbol, phorbol-12,13-distearate) did not affect insulin binding to intact cells. Both diacylglycerols and TPA stimulated internalization of 125I-insulin by U-937 and IM-9 cells. The ability of diacylglycerol to mimic the effects of TPA on the insulin receptor supports the concept of diacylglycerols as endogenous phorbol diester analogues even though the sole role of protein kinase C in our system is doubtful.(ABSTRACT TRUNCATED AT 250 WORDS)     

体外诱导小鼠骨髓干细胞转化为肝细胞的实验研究

目的模拟体内肝脏发生发育的环境和条件，建立以细胞因子为主的体外诱导培养体系，探讨骨髓干细胞体外转化肝细胞的可行性。方法获取小鼠骨髓干细胞，建立以细胞因子为细胞诱导的培养体系。在细胞培养过程中，观察细胞形态和数量，逆转录-聚合酶链反应（RT—PCR）检测肝细胞特异性基因的表达。Western blot和流式细胞仪检测ALB和CK18在蛋白水平的表达情况。糖元染色法行细胞糖原染色、尿素合成试验检测细胞的合成和代谢功能。结果在诱导培养12d，可以观察到多极性的肝细胞样细胞。且细胞逐渐增多、集落不断增大。诱导细胞在培养7d开始表达AFP mRNA并维持到第21天。此后表达逐渐减弱；培养7天开始表达ALB mRNA和CK18 mRNA。随着培养时间的延长表达不断增强；培养14d开始表达TTR mRNA，随着培养时间的延长表达不断增强。通过Western blot检测，诱导21d的细胞表达ALB和CK18蛋白，流式细胞术分析ALB阳性细胞的比例为60．45％，CK18阳性细胞的比例为67％。诱导培养21d，细胞胞浆内可见红染的糖原颗粒；诱导培养6d，细胞开始合成尿素，尿素合成功能随诱导时间的延长而增强，于第15天达到高峰。结论我们建立的以细胞因子FGF、HGF、OSM、EGF为主的细胞诱导培养体系能促使骨髓干细胞定向转化为肝细胞。     

Differential expression of phenotype by resting zone and growth region costochondral chondrocytes in vitro

This study establishes an in vitro model for examining endochondral cartilage cell metabolism. Chondrocytes derived from the resting cell zone and adjacent growth zone of rat costochondral cartilage were compared for retention of phenotype in culture. At third passage confluence, two cell populations differ morphologically and biochemically. Resting zone cells are fibroblast-like, with smooth cell membranes and little rough endoplasmic reticulum. Growth zone cells are more polygonal, smaller in diameter, with numerous cytoplasmic extensions of the plasma membranes and abundant rough endoplasmic reticulum. Both cell populations produce matrix vesicles that are comparable morphologically to matrix vesicles isolated enzymatically from epiphyseal cartilage. While membrane vesicles are released into the media by cells derived from the resting zone as well as from the growth cartilage, alkaline phosphatase activity is enriched in media vesicles produced by growth cartilage cells. Alkaline phosphatase enriched vesicles appear to be preferentially incorporated into the extracellular matrix. Both the plasma membrane marker enzyme activity and the membrane phospholipid composition are differentially expressed in matrix vesicles and plasma membranes and are cell specific. Matrix vesicles produced by resting zone cells are enriched in alkaline phosphatase, 5'-nucleotidase, ouabain sensitive Na+/K+ ATPase and cardiolipin when compared to the cell membrane. In addition, the plasma membranes of these cells contain more phosphatidylcholine plus sphingomyelin than do growth cartilage plasma membranes. Resting zone cell matrix vesicles have less phosphatidylethanolamine than do vesicles from growth cartilage cultures. Matrix vesicles produced by growth cartilage cells contain one proteolipid at 43,000 Mr which comigrates with plasma membrane proteolipid and an additional proteolipid at approximately 3,000 Mr. These data indicate that both cells retain differential expression of phenotype in culture and that one expression of this phenotype is production of specific extracellular matrix vesicles.     

Expression of the parathyroid hormone receptor and correlation with other osteoblastic parameters in fetal rat osteoblasts

Primary fetal rat calvarial cell cultures were examined for the expression of different osteoblastic parameters at the single cell level and in the whole population. The presence of the parathyroid hormone (PTH) receptor was studied by employing receptor autoradiography. After 3 days of culture, 10% of the cells expressed the PTH receptor. Immunolocalization of osteocalcin in 3-day-old cell cultures was found to be strongly correlated with the presence of the PTH receptor. Alkaline phosphatase (APase) localization in 3-day-old cultures correlated with only 69% of the PTH receptor expressing cells. Our results show that in 3-day-old rat calvarial cell cultures, only about 10% of the cells show markers of osteoblastic differentiation. The presence of the PTH receptor is strongly correlated with the presence of osteocalcin, but less with the presence of APase, indicating that it is the mature osteoblast that expresses the PTH receptor. After 7 days of culture, most receptor labeling, APase, and osteocalcin expression was found in multilayered areas of cells (nodules). Received: 28 February 1995 / Accepted: 27 July 1995     

Regulatory roles of zinc in matrix vesicle-mediated mineralization of growth plate cartilage.

Zinc (Zn2+) has long been known to play important roles in mineralization and ossification of skeletal tissues, but the mechanisms of Zn2+ action are not well understood. In this study we investigated the effects of Zn2+ on mineralization in a cell culture system in which terminal differentiation and mineralization of hypertrophic growth plate chondrocytes was induced by retinoic acid (RA) treatment. Addition of Zn2+ to RA-treated cultures decreased mineralization in a dose-dependent manner without affecting alkaline phosphatase (APase) activity. Characterization of matrix vesicles (MVs), particles that initiate the mineralization process, revealed that vesicles isolated from RA-treated and RA/Zn2+-treated cultures showed similar APase activity, but vesicles from RA/Zn2+-treated cultures contained significantly less Ca2+ and Pi. MVs isolated from RA-treated cultures were able to take up Ca2+ and mineralize in vitro, whereas vesicles isolated from RA/Zn2+-treated cultures were not able to do so. Detergent treatment, which ruptures the MV membrane and exposes preformed intravesicular Ca2+-Pi-phospholipid complexes, did not restore the Ca2+ uptake abilities of MVs isolated from RA/Zn2+-treated cultures, suggesting that vesicles from RA/Zn2+-treated cultures did not contain functional Ca2+-Pi-phospholipid complexes. Zn2+ treatment did not affect the content of annexins II, V, and VI in MVs or the Ca2+-dependent, EDTA-reversible binding of these molecules to the membrane surface. However, Zn2+ treatment did affect the EDTA-nonreversible binding of these molecules to the MV membrane, suggesting that Zn2+ interferes with the assembly of annexins in the MV membrane. In addition, Zn2+ inhibited annexin II-, V-, and VI-mediated Ca2+ influx into liposomes. In conclusion, Zn2+ inhibits the mineralizing competence of intravesicular Ca2+-Pi-phospholipid complexes and function of annexin channels, thereby controlling Ca2+ influx into MVs, the formation of the first crystal phase inside the vesicles and initiation of mineralization.     

Effects of isolated rheumatoid synovial cells on cartilage degradation in vitro

Rheumatoid synovium in coculture with cartilage has been shown to release a factor(s) that stimulates the depletion of glycosaminoglycans (GAG) from cartilage matrix. Human rheumatoid synovium was enzymatically disaggregated and the isolated cells were subjected to a variety of mechanical and immunological treatments. Synovial cell conditioned media (SCCM) were prepared and analyzed for their ability to stimulate GAG depletion. SCCM prepared from increasing concentrations of isolated synovial cells demonstrated cartilage degradative activity in a dose-dependent manner. This activity was characterized as interleukin-1 like and was found mostly within the adherent cell population where the synovial macrophages retained significant degradative ability. T cells alone were found to have no direct degradative effect on cartilage, but their presence appeared to augment the response of the adherent cells. The techniques described here provide a quantitative model for examining the degradative factors from synovium as well as the cellular interactions that promote their release.     

Regulation of osteosarcoma EGF receptor affinity by phorbol ester and cyclic AMP

We studied the binding and degradation of 125I-labeled epidermal growth factor (EGF) by UMR-106 osteosarcoma cells and the regulation of EGF receptor affinity for EGF by the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) and by treatments that raise intracellular levels of cyclic AMP. Cell surface binding of [125I]EGF to A431 cells reached a plateau after a 30 minute incubation at 37 degrees C but was undetectable in UMR-106 cells. Degradation of [125I]EGF proceeded at a 50-fold higher rate in A431 cells on a per cell basis, but receptor-bound [125I]EGF was internalized and degraded at a 3.5-fold higher rate by UMR-106 cells on a per receptor basis. At 4 degrees C, [125I]EGF labeled a single class of surface binding sites in the UMR-106 cell. Treatment with TPA at 37 degrees C reduced subsequent cell surface binding of [125I]EGF at 4 degrees C a maximum of 80% with an IC50 of 1.25 ng/ml. Maximal TPA reduction of [125I]EGF binding was observed within 5-15 minutes and was due to a reduction in the affinity of cell surface receptors of [125I]EGF without a change in receptor density. Pretreatment of the cells for 4 h with 30 microM forskolin, 1 mM isobutylmethylxanthine (IBMX) plus 30 microM forskolin, or 1 mM IBMX plus 100 ng/ml parathyroid hormone (PTH) attenuated the loss in [125I]EGF binding caused by a subsequent dose of 10 ng/ml of TPA by 17% (p less than 0.0005), 39% (p less than 0.0002), and 35% (p less than 0.002), respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Catecholamines modulate growth and differentiation of human preosteoclastic cells

Using a clonal cell line of human osteoclast precursors (FLG 29.1 cells), that after treatment with 12-O-tetradecanoyl phorbol 13-acetate (TPA) show many functional characteristics of osteoclasts, we demonstrated that catecholamines act as inducers of osteoclast maturation in vitro and as stimulators of osteoclast activity via the binding to ₂ adrenergic receptors. Scatchard analysis of¹²⁵I-labelled iodocyano-pindolol to untreated (undifferentiated) or TPA-treated (differentiated) FLG 29.1 cells revealed the presence of a single high-affinity site with aK _d value around 24 pM and 8 pM respectively and with superimposable binding capacity (1.18 fmol/mg protein). Catecholamines increased in a dose-dependent fashion the intracellular cyclic AMP (cAMP) accumulation in both undifferentiated and TPA-treated FLG 29.1 cells. Pretreatment of untreated and TPA-treated FLG 29.1 cells with propranolol inhibited the catecholamine effect on cAMP accumulation, while pretreatment with clonidine had no effect. Catecholamines also reduced cell proliferation, increased tartrate-resistant acid phosphatase (TRAcP) activity, interleukin 6 (IL-6) production, multinuclearity and response to salmon calcitonin (sCT) in undifferentiated FLG 29.1 cells. In differentiated FLG 29.1 cells only IL-6 release was induced by catecholamine treatment. These findings support a potential role for catecholamines in modulating osteoclast differentiation and mature osteoclast activity.     

Phorbol esters stimulate bone resorption in fetal rat long-bone cultures by mechanisms independent of prostaglandin synthesis

The phorbol esters, 12-O-tetradecanoylphorbol-13-acetate (TPA) and phorbol-12,13-didecanoate, which activate the enzyme protein kinase C, stimulated resorption in fetal rat long-bone cultures at concentrations of 1 and 10 microM. This effect appeared specific for active phorbol esters, since the inactive analogue 4-alpha-phorbol-12,13-didecanoate was without effect. The resorptive responses of fetal rat long-bone cultures to active phorbol esters differed from those previously described in newborn mouse calvaria cultures, since resorption stimulated by TPA in the rat long bones was not inhibited by either indomethacin (10 microM) or flufenamic acid (10 microM). However, calcitonin, an inhibitor of osteoclastic resorption, did decrease the response to TPA. There were some similarities between the response of fetal rat long-bone cultures to TPA and their response to epidermal growth factor (EGF). Like EGF, TPA stimulated DNA synthesis in the bones (measured as the incorporation of [3H]-thymidine) at concentrations below those necessary to stimulate resorption. TPA also did not stimulate resorption in the presence of aphidicolin (10 microM), an inhibitor of DNA synthesis that has been previously shown to block the resorptive response of these cultures to EGF. However, the responses of the cultures to TPA and EGF were not identical, since, unlike the effects of EGF, the stimulatory effects of TPA on DNA synthesis were biphasic. These results demonstrate that active phorbol esters stimulate bone resorption in fetal rat long-bone cultures through mechanisms that do not require prostaglandin synthesis but do appear to be mediated by osteoclasts.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of protein kinase C-delta and -epsilon isoforms by phorbol ester treatment of LLC-PK1 renal epithelia

BACKGROUND: LLC-PK1 renal epithelia are a widely used model for proximal tubular physiology and differentiation. Protein kinase C (PKC) has been observed to play a role in both processes. This study examines the subcellular distribution and down-regulation of PKC-delta and PKC-epsilon isoforms in phorbol ester-treated LLC-PK1 epithelia. METHODS: Cells were treated with 10-7 mol/L 12-O-tetradecanoyl phorbol 13-acetate (TPA) for up to seven days and were extracted as total cell lysates as well as cytosolic, membrane-associated (Triton-X soluble) and a third (Triton-X insoluble) fraction. The expression and cellular localization of PKC-delta and PKC-epsilon isoforms were then detected using Western immunoblot and immunofluorescence. RESULTS: Based on the use of an anti-PKC-delta monoclonal antibody, TPA was observed to cause a rapid decrease in total PKC-delta content, which then returned to near control levels by seven days of treatment. Immunofluorescence indicated that PKC-delta had a cytoskeletal localization within the cells, and a subtle cytoskeletal rearrangement occurred upon exposure to TPA. Western immunoblots showed that PKC-delta did not undergo the expected membrane translocation upon activation by TPA, but simply disappeared immediately from the cytosolic compartment. Conventional cell fractionation procedures such as homogenization and Triton extraction prior to Western immunoblot will, however, fail to evaluate completely PKC-delta in LLC-PK1 epithelia because of the highly stringent measures necessary to extract PKC-delta from the cytoskeletal compartment of these cells. Furthermore, we observed that a second (polyclonal) PKC-delta antibody may recognize phosphorylated forms of PKC-delta, which went unrecognized by the other antibody. PKC-epsilon was present in the cytosol, membrane, and Triton-X-insoluble fractions of the cells. TPA treatment resulted in a partial translocation of PKC-epsilon to both the membrane and Triton-X-insoluble fractions of the cell, but total PKC-epsilon remained essentially unchanged. CONCLUSIONS: The present data indicate that the localization of PKC-delta and subsequent redistribution within the LLC-PK1 cells in response to TPA treatment is highly unique and distinct from that of PKC-epsilon and PKC-alpha. An important methodological finding is that one given antibody may not recognize all phosphoproteins of a given PKC isoform.     

牙槽突裂组织工程骨修复的脂肪间充质干细胞体外三维培养促成骨的研究

目的探讨脂肪间充质干细胞在Matrigel凝胶中三维培养条件下成骨效果,为牙槽突裂组织工程骨修复提供理论依据。方法2019年6月于广州市妇女儿童医疗中心实验室,取第4代脂肪间充质干细胞(adipose derived stem cells,ADSC),调整细胞密度为1×10⁵/ml,分别用二维普通培养液(A组)、二维成骨诱导培养液(B组)、凝胶包裹ADSC联合成骨诱导培养液(C组)对ADSC进行培养,用CCK8法检测细胞增殖情况;用茜素红染色、碱性磷酸酶活性检测细胞矿化效果,用Western印迹法和qRT-PCR检测骨钙素和骨桥蛋白的表达量。结果ADSC包裹于水凝胶中,CCK8试剂盒检测显示ADSC在三维和二维培养条件下一样,增殖稳定。ADSC在三维培养条件下茜素红染色及碱性磷酸酶活性明显高于二维培养环境。在Western印迹法和RT-PCR检测中发现三维培养时ADSC的成骨蛋白及mRNA的表达也高于二维培养。结论ADSC包裹于水凝胶不影响干细胞的增殖能力,而3D培养干细胞可明显增强其体外的成骨能力,可作为种子细胞用于组织工程骨修复牙槽突裂。     

Tissue-mimetic culture enhances mesenchymal stem cell secretome capacity to improve regenerative activity of keratinocytes and fibroblasts in vitro

Mesenchymal stem/stromal cells (MSCs) are a heterogenous population of multipotent and highly secretory cells currently being investigated in the field of wound healing for their ability to augment tissue responses. The adaptive response of MSC populations to the rigid substrate of current 2D culture systems has been considered to result in a deterioration of regenerative ‘stem-like’ properties. In this study, we characterise how the improved culture of adipose-derived mesenchymal stem cells (ASCs) within a tissue-mimetic 3D hydrogel system, that is mechanically similar to native adipose tissue, enhances their regenerative capabilities. Notably, the hydrogel system contains a porous microarchitecture that permits mass transport, enabling efficient collection of secreted cellular compounds. By utilising this 3D system, ASCs retained a significantly higher expression of ASC ‘stem-like’ markers while demonstrating a significant reduction in senescent populations, relative to 2D. Additionally, culture of ASCs within the 3D system resulted in enhanced secretory activity with significant increases in the secretion of proteinaceous factors, antioxidants and extracellular vesicles (EVs) within the conditioned media (CM) fraction. Lastly, treatment of wound healing cells, keratinocytes (KCs) and fibroblasts (FBs), with ASC-CM from the 2D and 3D systems resulted in augmented functional regenerative activity, with ASC-CM from the 3D system significantly increasing KC and FB metabolic, proliferative and migratory activity. This study demonstrates the potential beneficial role of MSC culture within a tissue-mimetic 3D hydrogel system that more closely mimics native tissue mechanics, and subsequently how the improved phenotype augments secretory activity and potential wound healing capabilities of the MSC secretome.