Prolactin induces chitotriosidase expression in human macrophages through PTK,PI3‐K,and MAPK pathways

We previously reported that prolactin (PRL) induces chitotriosidase (CHIT‐1) mRNA expression in human macrophages. In this investigation we determined the signaling pathways involved in CHIT‐1 induction in response to PRL. The CHIT‐1 induction PRL‐mediated was reduced by wortmannin and LY‐294002, inhibitors of phosphatidylinositol 3‐kinase (PI3‐K) and by genistein an inhibitor of protein tyrosine kinase (PTK). Pre‐treatment of macrophages with SB203580, a specific inhibitor of the mitogen‐activated kinases (MAPK) p38, or with U0126, an inhibitor of MAPK p44/42, prevented both basal and exogenous PRL‐mediated CHIT‐1 expression. No significant effects on CHIT‐1 induction PRL‐mediated were observed with a protein kinase C inhibitor (PKC), rottlerin, or with an Src inhibitor, PP2, or with JAK2 inhibitor, AG490. In addition, PRL induced a phosphorylation of AKT that was prevented both by the two MAPK inhibitors SB203580 and U0126 and by the PI3‐K inhibitors wortmannin and LY‐294002. In conclusion, our results indicate that PRL up‐regulated CHIT‐1 expression via PTK, PI3‐K, MAPK, and signaling transduction components. J. Cell. Biochem. 107: 881–889, 2009. © 2009 Wiley‐Liss, Inc.     

Low magnitude and high frequency mechanical loading prevents decreased bone formation responses of 2T3 preosteoblasts

Bone loss due to osteoporosis or disuse such as in paraplegia or microgravity is a significant health problem. As a treatment for osteoporosis, brief exposure of intact animals or humans to low magnitude and high frequency (LMHF) mechanical loading has been shown to normalize and prevent bone loss. However, the underlying molecular changes and the target cells by which LMHF mechanical loading alleviate bone loss are not known. Here, we hypothesized that direct application of LMHF mechanical loading to osteoblasts alters their cell responses, preventing decreased bone formation induced by disuse or microgravity conditions. To test our hypothesis, preosteoblast 2T3 cells were exposed to a disuse condition using the random positioning machine (RPM) and intervened with an LMHF mechanical load (0.1–0.4 g at 30 Hz for 10–60 min/day). Exposure of 2T3 cells to the RPM decreased bone formation responses as determined by alkaline phosphatase (ALP) activity and mineralization even in the presence of a submaximal dose of BMP4 (20 ng/ml). However, LMHF mechanical loading prevented the RPM‐induced decrease in ALP activity and mineralization. Mineralization induced by LMHF mechanical loading was enhanced by treatment with bone morphogenic protein 4 (BMP4) and blocked by the BMP antagonist noggin, suggesting a role for BMPs in this response. In addition, LMHF mechanical loading rescued the RPM‐induced decrease in gene expression of ALP, runx2, osteomodulin, parathyroid hormone receptor 1, and osteoglycin. These findings suggest that preosteoblasts may directly respond to LMHF mechanical loading to induce differentiation responses. The mechanosensitive genes identified here provide potential targets for pharmaceutical treatments that may be used in combination with low level mechanical loading to better treat osteoporosis or disuse‐induced bone loss. J. Cell. Biochem. 106: 306–316, 2009. © 2009 Wiley‐Liss, Inc.     

Label‐free quantitative proteome analysis of skeletal tissues under mechanical load

Skeletal tissue has the capability to adapt its mass and structure in response to mechanical stress. However, the molecular mechanism of bone and cartilage to respond to mechanical stress are not fully understood. A label‐free quantitative proteome approach was used for the first time to obtain a global perspective of the response of skeletal tissue to mechanical stress. Label‐free quantitative analysis of 1D‐PAGE‐LC/MS/MS based proteomics was applied to identify differentially expressed proteins. Differential expression analysis in the experimental groups and control group showed significant changes for 248 proteins including proteins related to proliferation, differentiation, regulation of signal transduction and energy metabolic pathways. Fluorescence labeling by incorporation of alizarin/calcein in newly formed bone minerals qualitatively demonstrated new bone formation. Skeletal tissues under mechanical load evoked marked new bone formation in comparison with the control group. Bone material apposition was evident. Our data suggest that 39 proteins were assigned a role in anabolic process. Comparisons of anabolic versus catabolic features of the proteomes show that 42 proteins were related to catabolic. In addition, some proteins were related to regulation of signal transduction and energy pathways, such as tropomyosin 4, fibronectin 1, and laminin, might be new molecular targets that are responsive to mechanical force. Differentially expressed proteins identified in this model may offer a useful starting point for elucidating novel aspects of the effects of mechanical force on skeletal tissue. J. Cell. Biochem. 108: 600–611, 2009. © 2009 Wiley‐Liss, Inc.     

Is amino acid racemization a useful tool for screening for ancient DNA in bone?

Many rare and valuable ancient specimens now carry the scars of ancient DNA research, as questions of population genetics and phylogeography require larger sample sets. This fuels the demand for reliable techniques to screen for DNA preservation prior to destructive sampling. Only one such technique has been widely adopted: the extent of aspartic acid racemization (AAR). The kinetics of AAR are believed to be similar to the rate of DNA depurination and therefore a good measure of the likelihood of DNA survival. Moreover, AAR analysis is only minimally destructive. We report the first comprehensive test of AAR using 91 bone and teeth samples from temperate and high-latitude sites that were analysed for DNA. While the AAR range of all specimens was low (0.02–0.17), no correlation was found between the extent of AAR and DNA amplification success. Additional heating experiments and surveys of the literature indicated that d/l Asx is low in bones until almost all the collagen is lost. This is because aspartic acid is retained in the bone within the constrained environment of the collagen triple helix, where it cannot racemize for steric reasons. Only if the helix denatures to soluble gelatin can Asx racemize readily, but this soluble gelatine is readily lost in most burial environments. We conclude that Asx d/l is not a useful screening technique for ancient DNA from bone.     

Production of reactive oxygen species by monocyte-derived macrophages from blood of healthy donors and patients with ischemic heart disease

Production of reactive oxygen species (ROS) by macrophages derived from blood monocytes of healthy donors (MP_N) and patients with ischemic heart disease (IHD) (MP_IHD) before, during, and after their incubation with low-density lipoprotein (LDL) isolated from blood plasma of healthy donors (LDL_N) and patients with a high cholesterol level (LDL_H) was investigated by the method of luminol-dependent (spontaneous) and stimulated chemiluminescence (CL) using opsonized zymosan (OZ) or phorbol-12-myristate-13-acetate (PMA) as the CL stimulators. It was shown that proper, luminol-dependent, and zymosan-or PMA-stimulated chemiluminescence of MP_IHD was 1.4-, 1.8-, 2.7-, and 1.6-fold higher than the same types of chemiluminescence of MP_N, respectively, (p<0.05–0.01). Although the effect of OZ on MP_N and MP_IHD was more potent than that of PMA (by 4.3- and 3.2-fold, respectively), but it appeared in 2.5–3.0 times slower than that of PMA. LDL_N and LDL_H incubated with MP_N for the first 15 and 60 min caused the 1.4- and 2.5-increase of the luminol-dependent CL of MP_N; the same treatment of MP_IHD did not influence ROS production by these cells. Repeated increase in the OZ-stimulated CL of MP_N was also observed after preincubation for 15–180 min with LDL_N and LDL_H followed by LDL removal, subsequent MP_N washing and addition of Hanks solution and OZ; the repeated increase in OZ-stimulated CL of MP_N was only observed after incubation with LDL_H than with LDL_N. No increase of CL was observed in experiments with MP_IHD. Thus, more intensive chemiluminescence of macrophages obtained from blood of patients with IHD suggests their in vivo stimulation. LDL_N and LDL_H may cause both primary and secondary (after preincubation) stimulating effect on CL of MP_N but not of MP_IHD. Thus, the analysis of macrophage chemiluminescence is a sensitive test for evaluation the degree of macrophage stimulation; it may be effectively used for monitoring of effectiveness of medical treatment of patients.     

骨髓干细胞动员对动脉粥样硬化破裂斑块的稳定与修复作用

目的研究自体骨髓干细胞动员对兔动脉粥样硬化（AS）破裂斑块的稳定与修复作用。方法用液氮冻伤术创建兔AS破裂斑块模型,动员组注射重组人粒细胞刺激因子（rhG-CSF）动员自体骨髓干细胞,对照组注射等量生理盐水,连续5 d。动员第5天抽血分离获取单个核细胞,BrdU标记后经静脉注入动物体内;分别于动员后3d和4周末抽血,ELISA法检测兔血清MMP-9、hsC-RP及PAI-1水平;动员后4周处死兔,HE染色和Masson三色染色观察斑块病理形态,免疫组化染色观察BrdU在斑块区表达情况。结果动员5 d后,动员组兔外周血有核细胞计数及单核细胞比例明显增高;动员后4周,动员组新生内皮细胞及胶原纤维明显增多,在斑块区发现有BrdU标记的阳性细胞,动员组血清MMP-9、hsC-RP及PAI-1水平明显降低。结论应用rhG-CSF动员自体骨髓干细胞能通过促进血管内皮细胞和胶原纤维再生,降低炎症因子及凝血纤溶因子而稳定与修复AS破裂斑块。     

Neuro-inflammation induced in the hippocampus of 'binge drinking' rats may be mediated by elevated extracellular glutamate content

The neuropathological and immune changes induced in the brain by 'binge drinking' have been investigated in a rat model. Evidence of neuro-inflammation was identified in the 'binge drinking' rat model of alcohol abuse after 3 weeks of administration of 2 or 3 g/kg ethanol (EtOH), three times per day for two consecutive days, followed by 5 days of abstinence: Firstly, alveolar macrophages, isolated from these animals, showed significant increases in inducible nitric oxide synthase, as assayed by nitrite release, both before and after lipopolysaccaharide stimulation. Secondly, significant numbers of activated microglia were present in the dentate gyrus region of the hippocampus of the 'binge drinking' model, after major histocompatibility complex class II staining, by comparison with the control. Microdialysis studies in the ventral hippocampus identified a significant increase in the basal extracellular concentration of glutamate, in both the 2 and 3 g/kg administered 'binge drinking' rats. In contrast, no changes in the hippocampal extracellular concentrations, of GABA and taurine, or the dopamine and serotonin metabolites were observed under basal conditions. A further dose of EtOH induced a significant decrease in the concentrations of both 3,4-dihydroxyphenylacetic acid and 5-hydroxyindoleacetic acid, whereas glutamate, taurine and GABA levels were unaffected. There was no evidence that EtOH preference was initiated by the 'binge drinking' regimen. Our results suggest that the possible toxicity associated with 'binge drinking' maybe directed by the elevated glutamate levels, which in turn, activate phagocytic cells to release their inflammatory cytokines and chemokines, ultimately leading to neuro-inflammation.