Anchorage‐dependent binding of integrin I‐domain to adhesion ligands

The dynamic interactions between leukocyte integrin receptors and ligands in the vascular endothelium, extracellular matrix, or invading pathogens result in leukocyte adhesion, extravasation, and phagocytosis. This work examined the mechanical strength of the connection between iC3b, a complement component that stimulates phagocytosis, and the ligand‐binding domain, the I‐domain, of integrin α_Mβ₂. Single‐molecule force measurements of α_M I‐domain–iC3b complexes were conducted by atomic force microscope. Strikingly, depending on loading rates, immobilization of the I‐domain via its C‐terminus resulted in a 1.3‐fold to 1.5‐fold increase in unbinding force compared with I‐domains immobilized via the N‐terminus. The force spectra (unbinding force versus loading rate) of the I‐domain–iC3b complexes revealed that the enhanced mechanical strength is due to a 2.4‐fold increase in the lifetime of the I‐domain–iC3b bond. Given the structural and functional similarity of all integrin I‐domains, our result supports the existing allosteric regulatory model by which the ligand binding strength of integrin can be increased rapidly when a force is allowed to stretch the C‐terminus of the I‐domain. This type of mechanism may account for the rapid ligand affinity adjustment during leukocyte migration. Copyright © 2015 John Wiley & Sons, Ltd.     

Deficits of olfactory interneurons in polysialyltransferase‐ and NCAM‐deficient mice

The neurogenic niche of the anterior subventricular zone (SVZ) persistently generates neuroblasts, which migrate along the rostral migratory stream (RMS) into the olfactory bulb (OB), where they differentiate into granule and periglomerular cells. Loss of the neural cell adhesion molecule NCAM or its post‐translational modification polysialic acid (polySia) impairs migration causing accumulations of cells in the proximal RMS and decreased OB volume. Polysialylation of NCAM is implemented by two polysialyltransferases, ST8SIA2 and ST8SIA4, with overlapping functions. Here, we used mice with Ncam1 and polysialyltransferase deletions to analyze how partial or complete loss of polySia synthesis or a combined loss of polySia and NCAM affects the RMS and the interneuron composition in the OB. Numerous calretinin (CR)‐positive cells were detected dispersed around the RMS in Ncam1 knockout, St8sia2, St8sia4 double‐knockout, and St8sia2, St8sia4, Ncam1 triple‐knockout mice, as well as in St8sia2 ^?/? but not in St8sia4 ^?/? mice. These changes were not reflected by reductions of CR‐positive cells in the granule or glomerular layer of the OB. Instead, calbindin‐positive periglomerular interneurons were strongly reduced in all polySia‐NCAM negative mice and slightly attenuated in St8sia2 ^?/? as well as in the St8sia4 ^?/? mice, which were devoid of ectopic CR‐positive cells along the RMS. Consistent with the early developmental generation of calbindin‐ as compared with CR‐positive OB interneurons, this phenotype was fully developed at postnatal day 5. Together, these results demonstrate that the early development of calbindin‐positive periglomerular interneurons depends on the presentation of polySia on NCAM and requires the activity of both polysialyltransferases. © 2015 Wiley Periodicals, Inc. Develop Neurobiol 76: 421–433, 2016     

Temporal proteomic analysis of IGF‐1R signalling in MCF‐7 breast adenocarcinoma cells

Dysregulation of the insulin‐like growth factor 1 receptor signalling network is implicated in tumour growth and resistance to chemotherapy. We explored proteomic changes resulting from insulin‐like growth factor 1 stimulation of MCF‐7 adenocarcinoma cells as a function of time. Quantitative analysis using iTRAQ? reagents and 2‐D LC‐MS/MS analysis of three biological replicates resulted in the identification of 899 proteins (p≤0.05) with an estimated mean false‐positive rate of 2.6%. Quantitative protein expression was obtained from 681 proteins. Further analysis by supervised k‐means clustering identified five temporal clusters, which were submitted to the FuncAssociate server to assign overrepresented gene ontology terms. Proteins associated with vesicle transport were significantly overrepresented. We further analyzed our data set for proteins showing temporal significance using the software, extraction and analysis of differential gene expression, resulting in 20 significantly and temporally changing proteins (p≤0.1). These significant proteins play roles in, among others, altered glucose metabolism (lactate dehydrogenase A and pyruvate kinase M1/M2) and cellular stress (nascent polypeptide‐associated complex subunit α and heat shock (HSC70) proteins). We used multiple reaction monitoring to validate these interesting proteins and have revealed several differences in relative peptide expression corresponding to protein isoforms and variants.     

The immunoglobulin‐like cell adhesion molecule hepaCAM induces differentiation of human glioblastoma U373‐MG cells

Subsequent to our identification of a novel immunoglobulin‐like cell adhesion molecule hepaCAM, we showed that hepaCAM is frequently lost in diverse human cancers and is capable of modulating cell motility and growth when re‐expressed. Very recently, a molecule identical to hepaCAM (designated as GlialCAM) was found highly expressed in glial cells of the brain. Here, we demonstrate that hepaCAM is capable of inducing differentiation of the human glioblastoma U373‐MG cells. Expression of hepaCAM resulted in a significant increase in the astrocyte differentiation marker glial fibrillary acid protein (GFAP), indicating that hepaCAM promotes glioblastoma cells to undergo differentiation. To determine the relationship between hepaCAM expression level and cell differentiation, we established two U373‐MG cell lines expressing hepaCAM at different levels. The results revealed that high‐level hepaCAM triggered a clear increase in GFAP expression as well as morphological changes characteristic of glioblastoma cell differentiation. Furthermore, high expression of hepaCAM significantly accelerated cell adhesion but inhibited cell proliferation and migration. Concomitantly, deregulation of cell cycle regulatory proteins was detected. Expectedly, the differentiation was noticeably less apparent in cells expressing low‐level hepaCAM. Taken together, our findings suggest that hepaCAM induces differentiation of the glioblastoma U373‐MG cells. The degree of cell differentiation is dependent on the expression level of hepaCAM. J. Cell. Biochem. 107: 1129–1138, 2009. © 2009 Wiley‐Liss, Inc.     

不同接种量荧光素酶标记小鼠乳腺癌细胞4T1在小鼠体内生长及肺转移的比较

目的 采用活体成像技术比较四种剂量荧光素酶标记肿瘤细胞在小鼠体内生长及肺转移情况,为光学标记肿瘤模型的药物筛选或机制研究提供参考资料.方法 以荧光素酶作为报告基因导人小鼠乳腺癌细胞4T1中,经G418筛选获得稳定表达荧光素酶的细胞克隆并扩大培养.标记细胞稀释成1×107细胞/mL,2×107细胞/mL,5×107细胞/mL和1×108细胞/mL四种剂量,取0.1 mL接种子BALB/c小鼠右侧第二对乳腺脂肪垫内,制作小鼠原位乳腺癌模型,比较肿瘤细胞在小鼠体内生长及肺转移情况.结果获得稳定表达荧光素酶基因的细胞克隆,在致瘤性方面和亲代细胞无明显差别,四种剂量细胞接种BALB/c小鼠后,均有肿瘤生长,接种第28天时,四种剂量接种的原位移植瘤大小没有明显差别,但接种两个高剂量肿瘤细胞的小鼠组各有2只小鼠死亡;接种后31 d,发现四种剂量接种的原位移植瘤均发生不同程度的转移,随着观察天数的增加,转移程度逐渐严重,接种后42 d,小鼠陆续发生死亡.结论 根据转移和死亡情况,确定接种1×106个细胞/只不仅肺转移明显,而且存活时间一般超过45 d,比高剂量接种存活时间长,为最佳肺转移剂量.     

Cell death and lumen formation in spheroids of MCF‐7 cells

3D (three‐dimensional) cell culture permits a more integrated analysis of the relationship between cells, inserting them into a structure more closely resembling the cellular microenvironment in vivo. The development of in vitro parameters to approximate in vivo 3D cellular environments makes a less reductionist interpretation of cell biology possible. For breast cells, in vitro 3D culture has proven to be an important tool for the analysis of luminal morphogenesis. A greater understanding of this process is necessary because alterations in the lumen arrangement are associated with carcinogenesis. Following lumen formation in 3D cell culture using laser scanning confocal microscopy, we observed alterations in the arrangement of cytoskeletal components (F‐actin and microtubules) and increasing levels of cell death associated with lumen formation. The formation of a polarized monolayer facing the lumen was characterized through 3D reconstructions and the use of TEM (transmission electron microscopy), and this process was found to occur through the gradual clearing of cells from the medullary region of the spheroids. This process was associated with different types of cell death, such as apoptosis, autophagy and entosis. The present study showed that changes in the extracellular matrix associated with long periods of time in 3D cell culture lead to the formation of a lumen in MCF‐7 cell spheroids and that features of differentiation such as lumen and budding formation occur after long periods in 3D culture, even in the absence of exogenous extracellular compounds.     

MiR‐128‐1‐5p regulates tight junction induced by selenium deficiency via targeting cell adhesion molecule 1 in broilers vein endothelial cells

Vein endothelial cells (VECs) constitute an important barrier for macromolecules and circulating cells from the blood to the tissues, stabilizing the colloid osmotic pressure of the blood, regulating the vascular tone, and rapidly changing the intercellular connection, and maintaining normal physiological function. Tight junction has been discovered as an important structural basis of intercellular connection and may play a key role in intercellular connection injuries or vascular diseases and selenium (Se) deficiency symptoms. Hence, we replicated the Se‐deficient broilers model and detected the specific microRNA in response to Se‐deficient vein by using quantitative real time‐PCR (qRT‐PCR) analysis. Also, we selected miR‐128‐1‐5p based on differential expression in vein tissue and confirmed its target gene cell adhesion molecule 1 (CADM1) by the dual luciferase reporter assay and qRT‐PCR in VECs. We made the ectopic miR‐128‐1‐5p expression for the purpose of validating its function on tight junction. The result showed that miR‐128‐1‐5p and CADM1 were involved in the ZO‐1‐mediated tight junction, increased paracellular permeability, and arrested cell cycle. We presumed that miR‐128‐1‐5p and Se deficiency might trigger tight junction. Interestingly, miR‐128‐1‐5p inhibitor and fasudil in part hinder the destruction of the intercellular structure caused by Se deficiency. The miR‐128‐1‐5p/CADM1/tight junction axis provides a new avenue toward understanding the mechanism of Se deficiency, revealing a novel regulation model of tight junction injury in vascular diseases.     

Transforming growth factor‐β1 modulates metalloproteinase‐2 and ‐9, nitric oxide,RhoA and α‐smooth muscle actin expression in colon adenocarcinoma cells

Colon carcinoma invasiveness is a process involving cell–cell and cell–matrix alterations, local proteolysis of the ECM (extracellular matrix) or changes in cytokine and growth factor levels. In order to evaluate the role of TGF‐β1 (transforming growth factor‐β1) and small G protein RhoA in tumour progression, the influence of TGF‐β1 treatment or RhoA‐associated kinase inhibitor on the production of NO (nitric oxide) and MMP‐2 and MMP‐9 (metalloproteinases‐2 and ‐9) was analysed in three human colon adenocarcinoma cell lines (HT29, LS180, SW948) representing different stages of tumour development. All the tested cell lines produced low amounts of MMP‐2 and MMP‐9. rhTGF‐β1 and the synthetic Rho kinase inhibitor (Y‐27632) decreased MMP‐2 secretion by colon cancer cells, especially in the most advanced stage of colon cancer. rhTGF‐β1 decreased NO secretion by cells, while Y‐27632 had no effect on it. Immunoblotting with anti‐RhoA antibodies followed by densitometry revealed that RhoA levels were slightly increased after incubation of colon carcinoma cells (SW948) with rhTGF‐β1. rhTGF‐β1 induced α‐smooth muscle actin (α‐SMA) expression, especially in high Duke's grade of colon cancer, while Y‐27632 blocked it. Summing up, in colon carcinoma cells, TGF‐β1 and RhoA protein may regulate tumour invasiveness measured as MMP, NO and α‐SMA expression or assayed using motility data and may be a good target for cancer therapy.     

Anxiety and increased 5‐HT1A receptor response in NCAM null mutant mice

Mice deficient in the neural cell adhesion molecule (NCAM) show behavioral abnormalities as adults, including altered exploratory behavior, deficits in spatial learning, and increased intermale aggression. Here, we report increased anxiety‐like behavior of homozygous (NCAM^−/−) and heterozygous (NCAM^+/−) mutant mice in a light/dark avoidance test, independent of genetic background and gender. Anxiety‐like behavior was reduced in both NCAM^+/+ and NCAM^−/− mice by systemic administration of the benzodiazepine agonist diazepam and the 5‐HT_1A receptor agonists buspirone and 8‐OH‐DPAT. However, NCAM^−/− mice showed anxiolytic‐like effects at lower doses of buspirone and 8‐OH‐DPAT than NCAM^+/+ mice. Such increased response to 5‐HT_1A receptor stimulation suggests a functional change in the serotonergic system of NCAM^−/− mice, likely involved in the control of anxiety and aggression. However, 5‐HT_1A receptor binding and tissue content of serotonin and its metabolite 5‐hydroxyindolacetic acid were found unaltered in every brain area of NCAM^−/− mice investigated, indicating that expression of 5‐HT_1A receptors as well as synthesis and release of serotonin are largely unchanged in NCAM^−/− mice. We hypothesize a critical involvement of endogenous NCAM in serotonergic transmission via 5‐HT_1A receptors and inwardly rectifying K⁺ channels as the respective effector systems. © 1999 John Wiley & Sons, Inc. J Neurobiol 40: 343–355, 1999     

microRNA‐124 inhibits stem‐like properties and enhances radiosensitivity in nasopharyngeal carcinoma cells via direct repression of expression of JAMA

Cancer stem cells (CSCs) are a source of tumour recurrence in patients with nasopharyngeal carcinoma (NPC); however, the function of microRNA‐124 (miR‐124) in NPC CSCs has not been clearly defined. In this study, we investigated the role of miR‐124 in NPC CSCs. qRT‐PCR was performed to measure miR‐124 expression in NPC tissues and cell lines and the effects of miR‐124 on stem‐like properties and radiosensitivity of NPC cells measured. Luciferase reporter assays and rescue experiments were used to investigate the interaction of miR‐124 with the 3′UTR of junctional adhesion molecule A (JAMA). Finally, we examined the effects of miR‐124 in an animal model and clinical samples. Down‐regulation of miR‐124 was detected in cancer tissues and was inversely associated with tumour stage and lymph node metastasis. Overexpression of miR‐124 inhibited stemness properties and enhanced radiosensitivity of NPC cells in vitro and in vivo via targeting JAMA. Up‐regulation of miR‐124 was correlated with superior overall survival of patients with NPC. Our study demonstrates that miR‐124 can inhibit stem‐like properties and enhance radiosensitivity by directly targeting JAMA in NPC. These findings provide novel insights into the molecular mechanisms underlying therapy failure in NPC.     

Using ICD‐9 codes to establish prevalence of malformations in newborn infants

BACKGROUND The International Classification of Disease (ICD‐9) codes are used to identify, after discharge, diagnoses from a review of the medical record and provide the basis for reimbursement. These codes have been used to establish the prevalence of malformations and to assess potential teratogens. We have analyzed the accuracy of codes 740 to 759.9 to identify newborn infants with malformations. METHODS The diagnoses and ICD‐9 codes in the medical records of 1000 consecutive live‐born and stillborn infants were compared to the information provided in the medical records of those infants. RESULTS One hundred twenty‐seven of the 1000 infants had ICD‐9 codes between 740 and 759.9. 67 (52.8%) of the codes identified minor features, such as birth marks and minor anomalies. Twenty‐three (18.1%) of the codes designated a malformation and were correct. Two types of errors were identified in another 33 infants (26%) whose codes designated a malformation: either the pediatricians' notes described a less severe finding or the fact that there was no such abnormality. In addition, four malformed infants were missed in pregnancies that were either terminated electively or stillborn, as they did not have medical records. CONCLUSION The ICD‐9 codes 740 to 759.9 identified accurately some infants ( 18% ) with malformations, but identified incorrectly many others. The accuracy of the coding for identifying malformations would be improved if (1) the findings of the examining pediatricians were considered; (2) normal features of prematurity, such as patent foramen ovale and patent ductus arteriosus, were not considered malformations; (3) minor physical features were not assigned ICD‐9 codes within the 740 to 759.9 sequence. Birth Defects Research (Part A) 2012. © 2012 Wiley Periodicals, Inc.     

Proteomic analysis of SP600125‐controlled TrkA‐dependent targets in SK‐N‐MC neuroblastoma cells: Inhibition of TrkA activity by SP600125

The c‐Jun N‐terminal kinase (JNK) is well known to play an important role in cell death signaling of the p75 neurotrophin receptor. However, little has been studied about a role of JNK in the signaling pathways of the tropomyosin‐related kinase A (TrkA) neurotrophin receptor. In this study, we investigated JNK inhibitor SP600125‐controlled TrkA‐dependent targets by proteomic analysis to better understand an involvement of JNK in TrkA‐mediated signaling pathways. PDQuest image analysis and protein identification results showed that hnRNP C1/C2, α‐tubulin, β‐tubulin homolog, actin homolog, and eIF‐5A‐1 protein spots were upregulated by ectopic expression of TrkA, whereas α‐enolase, peroxiredoxin‐6, PROS‐27, HSP70, PP1‐gamma, and PDH E1‐alpha were downregulated by TrkA, and these TrkA‐dependent upregulation and downregulation were significantly suppressed by SP600125. Notably, TrkA largely affected certain PTM(s) but not total protein amounts of the SP600125‐controlled TrkA‐dependent targets. Moreover, SP600125 strongly suppressed TrkA‐mediated tyrosine phosphorylation signaling pathways as well as JNK signaling, indicating that SP600125 could function as a TrkA inhibitor. Taken together, our results suggest that TrkA could play an important role in the cytoskeleton, cell death, cellular processing, and glucose metabolism through activation or inactivation of the SP600125‐controlled TrkA‐dependent targets.     

Generation of CD4CreERT2 transgenic mice to study development of peripheral CD4‐T‐cells

After thymic emigration CD4‐T‐cells continue to differentiate into multiple effector and suppressor sublineages in peripheral lymphoid organs. In vivo analysis of peripheral CD4‐T‐cell differentiation has relied on animal models with targeted gene mutations. These are expressed either constitutively or conditionally after Cre mediated recombination. Available Cre transgenic strains to specifically target T‐cells act at stages of thymocyte development that precede thymic selection. Tracing gene functions in CD4‐T‐cell development after thymic exit becomes complicated when the targeted gene is essential during thymic development. Other approaches to conditionally modify gene functions in peripheral T‐cells involve infection of in vitro activated cells with Cre expressing lenti‐, retro‐, or adenoviruses, which precludes in vivo analyses. To study molecular mechanisms of peripheral CD4‐T‐cell differentiation in vivo and in vitro we generated transgenic mice expressing a tamoxifen inducible Cre recombinase (CreER^T2) under the control of the CD4 gene promoter. We show here that in CD4CreER^T2 mice Cre is inducibly and selectively activated in CD4‐T‐cells. Tamoxifen treatment both in vivo and in vitro results in efficient recombination of loci marked by LoxP sites. Moreover, this strain shows no abnormalities related to transgene insertion. Therefore it provides a valuable tool for studying gene function during differentiation of naïve peripheral CD4‐T‐cells into effector or suppressor sub‐lineages. genesis 50:908–913, 2012. © 2012 Wiley Periodicals, Inc.     

Enhanced effect of BCG vaccine against pulmonary Mycobacterium tuberculosis infection in mice with lung Th17 response to mycobacterial heparin‐binding hemagglutinin adhesin antigen

Although the BCG vaccine can prevent tuberculosis (TB) in infants, its ability to prevent adult pulmonary TB is reportedly limited. Therefore, development of a novel effective vaccine against pulmonary TB has become an international research priority. We have previously reported that intranasal vaccination of mice with a mycobacterial heparin‐binding hemagglutinin adhesin (HBHA) plus mucosal adjuvant cholera toxin (CT) enhances production of IFN‐γ and anti‐HBHA antibody and suppresses extrapulmonary bacterial dissemination after intranasal infection with BCG. In the present study, the effects of intranasal HBHA + CT vaccine on murine pulmonary Mycobacterium tuberculosis (Mtb) infection were examined. Intranasal HBHA + CT vaccination alone failed to reduce the bacterial burden in the infected lung. However, a combination vaccine consisting of s.c. BCG priming and an intranasal HBHA + CT booster significantly enhanced protective immunity against pulmonary Mtb infection on day 14 compared with BCG vaccine alone. Further, it was found that intranasal HBHA + CT vaccine enhanced not only IFN‐γ but also IL‐17A production by HBHA‐specific T cells in the lung after pulmonary Mtb infection. Therefore, this combination vaccine may be a good candidate for a new vaccine strategy against pulmonary TB.     

Mobilization‐based transplantation of young‐donor hematopoietic stem cells extends lifespan in mice

Mammalian aging is associated with reduced tissue regeneration and loss of physiological integrity. With age, stem cells diminish in their ability to regenerate adult tissues, likely contributing to age‐related morbidity. Thus, we replaced aged hematopoietic stem cells (HSCs) with young‐donor HSCs using a novel mobilization‐enabled hematopoietic stem cell transplantation (HSCT) technology as an alternative to the highly toxic conditioning regimens used in conventional HSCT. Using this approach, we are the first to report an increase in median lifespan (12%) and a decrease in overall mortality hazard (HR: 0.42, CI: 0.273–0.638) in aged mice following transplantation of young‐donor HSCs. The increase in longevity was accompanied by reductions of frailty measures and increases in food intake and body weight of aged recipients. Young‐donor HSCs not only preserved youthful function within the aged bone marrow stroma, but also at least partially ameliorated dysfunctional hematopoietic phenotypes of aged recipients. This compelling evidence that mammalian health and lifespan can be extended through stem cell therapy adds a new category to the very limited list of successful anti‐aging/life‐extending interventions. Our findings have implications for further development of stem cell therapies for increasing health and lifespan.