Emerging Roles of DLK1 in the Stem Cell Niche and Cancer Stemness

DLK1 is a maternally imprinted, paternally expressed gene coding for the transmembrane protein Delta-like homologue 1 (DLK1), a non-canonical NOTCH ligand with well-described roles during development, and tumor-supportive functions in several aggressive cancer forms. Here, we review the many functions of DLK1 as a regulator of stem cell pools and tissue differentiation in tissues such as brain, muscle, and liver. Furthermore, we review recent evidence supporting roles for DLK1 in the maintenance of aggressive stem cell characteristics of tumor cells, specifically focusing on central nervous system tumors, neuroblastoma, and hepatocellular carcinoma. We discuss NOTCH -dependent as well as NOTCH-independent functions of DLK1, and focus particularly on the complex pattern of DLK1 expression and cleavage that is finely regulated from a spatial and temporal perspective. Progress in recent years suggest differential functions of extracellular, soluble DLK1 as a paracrine stem cell niche-secreted factor, and has revealed a role for the intracellular domain of DLK1 in cell signaling and tumor stemness. A better understanding of DLK1 regulation and signaling may enable therapeutic targeting of cancer stemness by interfering with DLK1 release and/or intracellular signaling.     

Molecular characteristics of the porcine DLK1 and MEG3 genes

Imprinted genes play important roles in embryo survival and postnatal growth regulation. The DLK1 and MEG3 (previously GTL2) genes are linked and reciprocally imprinted in several mammals, but their imprinting status is still unknown in pigs. In this study, we report polymorphisms, imprinting status and QTL analyses of the porcine DLK1 and MEG3 genes. Muscle and adipose DNA and RNA samples from 30-day-old animals generated with reciprocal crosses between the Korean native pig (KNP) and Yorkshire breeds were used to analyse DLK1 and MEG3 variation and expression. The samples exhibited paternal expression of DLK1 and maternal expression of MEG3 in pigs. These results indicated that the imprinting status of the DLK1 and MEG3 genes is conserved across mammalian species. By linkage analyses, we assigned the DLK1 and MEG3 genes to the telomeric region of SSC7. By QTL analyses, we confirmed a significant polar overdominance (POD) effect in DLK1 , which was previously detected for several growth traits in pigs. However, no significant POD effect was found with the MEG3 locus.     

Mouse hepatoblasts at distinct developmental stages are characterized by expression of EpCAM and DLK1: Drastic change of EpCAM expression during liver development

Hepatoblasts are hepatic progenitor cells that expand and give rise to either hepatocyte or cholangiocytes during liver development. We previously reported that delta-like 1 homolog (DLK1) is expressed in the mouse liver primordium at embryonic day (E) 10.5 and that DLK1⁺ cells in E14.5 liver contain high proliferative and bipotential hepatoblasts. While the expression of epithelial cell adhesion molecule (EpCAM) in hepatic stem/progenitor cells has been reported, its expression profile at an early stage of liver development remains unknown. In this study, we show that EpCAM is expressed in mouse liver bud at E9.5 and that EpCAM⁺DLK1⁺ hepatoblasts form hepatic cords at the early stage of hepatogenesis. DLK1⁺ cells of E11.5 liver were fractionated into EpCAM⁺ and EpCAM⁻ cells; one forth of EpCAM⁺DLK1⁺ cells formed a colony in vitro whereas EpCAM⁻DLK1⁺ cells rarely did it. Moreover, EpCAM⁺DLK1⁺ cells contained cells capable of forming a large colony, indicating that EpCAM⁺DLK1⁺ cells in E11.5 liver contain early hepatoblasts with high proliferation potential. Interestingly, EpCAM expression in hepatoblasts was dramatically reduced along with liver development and the colony-forming capacities of both EpCAM⁺DLK1⁺ and EpCAM⁻DLK1⁺ cells were comparable in E14.5 liver. It strongly suggested that most of mouse hepatoblasts are losing EpCAM expression at this stage. Moreover, we provide evidence that EpCAM⁺DLK1⁺ cells in E11.5 liver contain extrahepatic bile duct cells as well as hepatoblasts, while EpCAM⁻DLK1⁺ cells contain mesothelial cell precursors. Thus, the expression of EpCAM and DLK1 suggests the developmental pathways of mouse liver progenitors.     

HIF-1α 在垂体腺瘤中的表达及与垂体腺瘤侵袭性的关系

目的:研究缺氧诱导因子-1α(HIF-1α)在人垂体腺瘤中的表达,对HIF-1α蛋白表达与肿瘤分级进行相关性分析,探讨其表达水平与垂体腺瘤侵袭性的关系.方法:集影像学检查、内分泌学检查及病理诊断的垂体腺瘤60例,分为侵袭组和非侵袭组,其中侵袭组36例,非侵袭组24例;对照组正常脑组织5例.免疫组织化学技术检测HIF-1α蛋白的表达,结合临床资料进行统计学分析.分析垂体腺瘤HIF-1α蛋白的表达水平并与对照组进行比较,比较侵袭组和非侵袭组垂体腺瘤之间HIF-1α蛋白表达水平的差异.结果:HIF-1α蛋白在垂体腺瘤中的表达明显高于对照组,二者比较,x20.05,1=12.392,P＜0.001,有显著性差异;侵袭组HIF-1α蛋白的表达较非侵袭组显著增高,二者比较,x20.05.1=24.658,P＜0.001,有显著性差异.结论:H1F-1α是垂体腺瘤侵袭过程中的重要调控因子,与垂体腺瘤的大小、分级以及侵袭性密切相关,其作用机制有待进一步研究,其表达程度可用作垂体腺瘤预后的评估指标,为垂体腺瘤术后的复发以及相应的辅助治疗提供判断依据.有可能为人们靶向肿瘤缺氧来开发新药物提供新的作用靶点.     

印记基因DLK1的研究进展

在哺乳动物中,有一部分特别的基因,它们由于受到印迹而只表达单一亲本的基因,这种表观遗传的修饰现象就是基因组印记,这有别于经典的孟德尔遗传学定律。DNA甲基化是一种重要的表观遗传修饰,主要的修饰部位发生在DNA的CpG岛,它参与了细胞分化,基因组稳定性、基因印记等多种细胞生物学过程,基因印迹的建立和维持是胚胎正常发育的基础,这一过程的实现有赖于各种DNA甲基化转移酶的精确表达和密切的配合。已发现在哺乳动物的基因组中存在着许多的印记基因,DLK1基因为父系表达母源沉默的印记基因,它的表达同样受到DNA甲基化的调节,它首先在神经母细胞瘤发现并克隆,定位于人类染色体14q32,属于表皮生长因子样超家族的成员之一,约有6个外显子。研究表明,DLK1基因在胚胎肝、早期肌肉组织以及造血干细胞等组织中均有表达,人DLK1基因全长1557bp,编码序列含有1152核苷酸,编码383个氨基酸残基,在人、小鼠、绵羊都存在保守序列,它参与多种细胞的增殖、分化并且与相关肿瘤的发生发展有着密切的关系,印迹基因的印迹异常与肿瘤的易感性及发生发展有重要的关系,本文就国内外DLK1基因的研究进展做一综述。     

GSTP1、E-cadherin在垂体腺瘤中的表达及临床意义

目的：研究谷胱甘肽S-转移酶P1（GSTP1）、上皮钙粘蛋白（E-cadherin）在垂体腺瘤中的表达及临床意义。方法：应用免疫组化SP染色法检测30例侵袭性垂体腺瘤与30例非侵袭性垂体腺瘤中GSTP1、E-cadherin的表达。结果：GSTP1在侵袭性垂体腺瘤中的表达较非侵袭性垂体腺瘤显著降低（P〈0.05）;E-cadherin在侵袭性垂体腺瘤中的表达较非侵袭性垂体腺瘤显著降低（P〈0.05）;GSTP1、E-cadherin在垂体腺瘤中的表达呈正相关（r=0.82,P〈0.05）。结论：GSTP1、E-cadherin在垂体腺瘤中的表达与肿瘤侵袭程度显著相关,两者联合检测有助于判断垂体腺瘤侵袭性及预后。     

Alternative splicing of delta-like 1 homolog (DLK1) in the pig and human

Delta-like homolog 1 (DLK1), a paternally imprinted gene with several alternative splicing isoforms, is an important regulator of fetal and postnatal development. We report the sequence of porcine DLK1 (pDLK1) and examine the expression and alternative splicing isoforms in the pig (Sus scrofa) and human. DLK1-A was the sole isoform identified in human tissues and has been shown to be present in mouse and cattle. Surprisingly, DLK1-A was undetected in various tissues from fetal and postnatal pigs. Instead, DLK1-C2 was the most abundant isoform while DLK1-B was expressed to a lesser extent. In fractionated adipose tissue, pDLK1 was most highly expressed in the stromal-vascular cell fraction. In addition, total pDLK1 was highly expressed in fetal adipose tissue but dramatically decreased postnatally. Our data suggests that expression of DLK1-B and -C2 isoforms is sufficient for normal pig development. Furthermore, human and pig samples showed no alterations in species-specific splicing, but expression levels decreased with age, suggesting that regulation of expression, not splicing, is the most likely mechanism controlling the biological function of DLK1.     

GSTP1、E-cadherin 在垂体腺瘤中的表达及临床意义

目的:研究谷胱甘肽S-转移酶P1(GSTP1)、上皮钙粘蛋白(E-cadherin)在垂体腺瘤中的表达及临床意义。方法:应用免疫组化SP染色法检测30例侵袭性垂体腺瘤与30例非侵袭性垂体腺瘤中GSTP1、E-cadherin的表达。结果:GSTP1在侵袭性垂体腺瘤中的表达较非侵袭性垂体腺瘤显著降低(P<0.05);E-cadherin在侵袭性垂体腺瘤中的表达较非侵袭性垂体腺瘤显著降低(P<0.05);GSTP1、E-cadherin在垂体腺瘤中的表达呈正相关(r=0.82,P<0.05)。结论:GSTP1、E-cadherin在垂体腺瘤中的表达与肿瘤侵袭程度显著相关,两者联合检测有助于判断垂体腺瘤侵袭性及预后。     

Developmental changes of Islet-1 and its co-localization with pituitary hormones in the pituitary gland of chick embryo by immunohistochemistry

Although Islet-1 expression in the pituitary gland of early mouse embryo has been previously described, there are no reports concerning the correlation of Islet-1 expression with lineage restrictions in cell types at the later stages of pituitary development. The role of Islet-1 in chickens is also unknown. The purpose of this study was to follow, by using immunohistochemistry, the ontogeny of pituitary Islet-1 and the various cell types that contain Islet-1 throughout chick embryo development. A few Islet-1-immunopositive (Islet-1⁺) cells were first detected in the pituitary primordium in two out of six embryos at embryonic day 5.5 (E5.5), most of the Islet-1⁺ cells being ventrally located. As development progressed, many more Islet-1⁺ cells were observed throughout the pars distalis. The relative percentage of Islet-1⁺ cells amongst the total Rathke’s pouch cells was 4.4% at E6.5. This increased significantly, reaching 11.1% by E10.5, followed by no significant change until hatching. Dual immunohistochemistry showed that adrenocorticotrophs, somatotrophs and lactotrophs did not express Islet-1. The cellular types expressing Islet-1 included luteinizing-hormone-positive (LH⁺) gonadotrophs and thyroid-stimulating-hormone-positive (TSH⁺) thyrotrophs. The cells co-expressing LH and Islet-1 were initially detected at E6.5, the proportion of LH⁺ cells possessing Islet-1 being about 4%; this increased to 63% at E14.5, followed by no significant changes until hatching. TSH and Islet-1 co-localized cells were first observed at E10.5, with about 37% TSH⁺ cell expressing Islet-1; this increased to about 50% by E16.5, after which there was no evident change until hatching. These results suggest that Islet-1 is involved in determining the cell lineages, proliferation, differentiation and maintenance of hormone-secreting functions of pituitary gonadotrophs and thyrotrophs of chick embryo. J. Liu and Y. He contributed equally to this article. This work was supported by grants from Beijing Natural Science Foundation (6042013) and the Natural Science Foundation of China (30471264, 30325034).     

Tumores hipofisarios no funcionantes: actualización 2012

Non-functioning pituitary adenomas are the most common pituitary macroadenomas in adults, accounting for approximately 14%-28% of all clinically relevant pituitary tumors. They are a heterogeneous group of tumors that cause symptoms by compression and/or hormone deficiencies. The possibility of tumor growth is increased in macroadenomas and solid tumors as compared to microadenomas and cystic tumors. Diagnosis is based on imaging procedures (magnetic resonance imaging), but there are studies reporting promising potential biomarkers. Transsphenoidal surgery remains the first therapeutic option for large tumors with compressive symptoms. There is no evidence that endoscopic procedures improve outcomes, but they decrease morbidity. There is no unanimity in finding prognostic predictors of recurrence. Radiosurgery achieves tumor control and, sometimes, adenoma size reduction. Its adverse effects increase with higher doses and tumor sizes > 4 cm³. Drug treatment is of little value. In aggressive non-functioning tumors, temozolomide (TMZ) may be used with caution because no controlled studies are available. TMZ achieves tumor control in 38%-40% of aggressive non-functioning tumors. The optimal treatment regimen and duration have not been defined yet. Lack of response to TMZ after 3 cycles predicts for treatment resistance, but initial response does not ensure optimal mid or long–term results. O6-methylguanine-DNA methyltransferase expression has a limited predictive value of response to treatment with TMZ in aggressive non-functioning tumors. It should therefore not be a determinant factor in selection of patients to be treated with TMZ.     

新的生长激素释放激素类似肽Pro-hGHRH(1-44)-Gly-Gly-Cys的重组和比较活性*

目的:为了寻找高活性和长半衰期生的GHRH类似肽。方法:通过使用独特的酸敏感水解位点Asp-Pro的原核表达系统,构建了新的Pro-hGHRH(1-44)-Gly-Gly-Cys类似肽。通过重组细菌裂解、包含体洗涤、乙醇分级沉淀、酸水解、SP-Sephadex C-25和Sephadex G-10柱层析等技术,纯化了高纯度的Pro-hGHRH(1-44)-Gly-Gly-Cys肽。通过使用SDS-PAGE、离子化质谱、雌大鼠垂体和人流产胎儿垂体,测定了多肽的纯度、分子量、生长激素释放活性。结果:Pro-hGHRH(1-44)-Gly-Gly-Cys肽分子量5373Da与实际值吻合,0.1~10 μg/ml的肽剂量不论是对人垂体还是大鼠垂体都增加了垂体生长激素的释放,大鼠垂体生长激素的释放具有剂量依赖性。与标准的hGHRH(1-40)肽比较,新的类似肽有较高的GH释放活性。结果也显示了,Pro-GHRH(1-44)-Gly-Gly-Cys与Pro-hGHRH(1-44)肽的GH释放活性无统计学差异。结论：新的类似肽有较好的生长激素释放活性、功能选择性和种属特异性。     

MicroRNAs Regulate Pituitary Development,and MicroRNA 26b Specifically Targets Lymphoid Enhancer Factor 1 (Lef-1), Which Modulates Pituitary Transcription Factor 1 (Pit-1) Expression

To understand the role of microRNAs (miRNAs) in pituitary development, a group of pituitary-specific miRNAs were identified, and Dicer1 was then conditionally knocked out using the Pitx2-Cre mouse, resulting in the loss of mature miRNAs in the anterior pituitary. The Pitx2-Cre/Dicer1 mutant mice demonstrate growth retardation, and the pituitaries are hypoplastic with an abnormal branching of the anterior lobe, revealing a role for microRNAs in pituitary development. Growth hormone, prolactin, and thyroid-stimulating hormone β-subunit expression were decreased in the Dicer1 mutant mouse, whereas proopiomelanocortin and luteinizing hormone β-subunit expression were normal in the mutant pituitary. Further analyses revealed decreased Pit-1 and increased Lef-1 expression in the mutant mouse pituitary, consistent with the repression of the Pit-1 promoter by Lef-1. Lef-1 directly targets and represses the Pit-1 promoter. miRNA-26b (miR-26b) was identified as targeting Lef-1 expression, and miR-26b represses Lef-1 in pituitary and non-pituitary cell lines. Furthermore, miR-26b up-regulates Pit-1 and growth hormone expression by attenuating Lef-1 expression in GH3 cells. This study demonstrates that microRNAs are critical for anterior pituitary development and that miR-26b regulates Pit-1 expression by inhibiting Lef-1 expression and may promote Pit-1 lineage differentiation during pituitary development.