The role of bone marrow-derived cells in bone fracture repair in a green fluorescent protein chimeric mouse model

We investigated the role of bone marrow cells in bone fracture repair using green fluorescent protein (GFP) chimeric model mice. First, the chimeric model mice were created: bone marrow cells from GFP-transgenic C57BL/6 mice were injected into the tail veins of recipient wild-type C57BL/6 mice that had been irradiated with a lethal dose of 10Gy from a cesium source. Next, bone fracture models were created from these mice: closed transverse fractures of the left femur were produced using a specially designed device. One, three, and five weeks later, fracture lesions were extirpated for histological and immunohistochemical analyses. In the specimens collected 3 and 5 weeks after operation, we confirmed calluses showing intramembranous ossification peripheral to the fracture site. The calluses consisted of GFP- and osteocalcin-positive cells at the same site, although the femur consisted of only osteocalcin-positive cells. We suggest that bone marrow cells migrated outside of the bone marrow and differentiated into osteoblasts to make up the calluses.     

Bone formation in organ cultures of bone marrow

Summary Bone formation in organ cultures of intact marrow fragments from mouse is described. Marrow explants were cultured on the top surface of a millipore filter at a gas-liquid interface. Observations with both light- and electron microscopes demonstrated the formation of a well-organised trabecular matrix lined with osteoblast-like cells. The tissue and cells were positive for alkaline-phosphatase activity. Large amounts of thick, well-banded collagen fibrils and matrix vesicles typical of those found in bone were present. The tissue became mineralised in the presence of 10 mM Na--glycerophosphate; in its absence a similar trabecular matrix developed but mineralisation did not take place.     

Pleiotropic activity of lysophosphatidic acid in bone metastasis

Bone is a common metastatic site for solid cancers. Bone homeostasis is tightly regulated by intimate cross-talks between osteoblast (bone forming cells) and osteoclasts (bone resorbing cells). Once in the bone microenvironment, metastatic cells do not alter bone directly but instead perturb the physiological balance of the bone remodeling process controlled by bone cells. Tumor cells produce growth factors and cytokines stimulating either osteoclast activity leading to osteolytic lesions or osteoblast function resulting in osteoblastic metastases. Growth factors, released from the resorbed bone matrix or throughout osteoblastic bone formation, sustain tumor growth. Therefore, bone metastases are the sites of vicious cycles wherein tumor growth and bone metabolism sustain each other. Lysophosphatidic acid (LPA) promotes the growth of primary tumors and metastatic dissemination of cancer cells. We have shown that by acting on cancer cells via the contribution of blood platelets and the LPA-producing enzyme Autotaxin (ATX), LPA promotes the progression of osteolytic bone metastases in animal models. In the light of recent reports it would appear that the role of LPA in the context of bone metastases is complex involving multiple sources of lipid combined with direct and indirect effects on target cells. This review will present our current knowledge on the LPA/ATX axis involvement in osteolytic and osteoblastic skeletal metastases and will discuss the potential activity of LPA upstream and downstream metastasis seeding of cancer cells to bone as well as its implication in cancer induced bone pain. This article is part of a Special Issue entitled Advances in Lysophospholipid Research.     

Jaw and long bone marrow derived osteoclasts differ in shape and their response to bone and dentin

Increasing evidence suggests the existence of osteoclast diversity. Here we investigated whether precursors obtained from marrow of the mandibula or long bone could give rise to phenotypically different osteoclasts. Formation of multinucleated cells was assessed after culturing mouse marrow cells of the two bone types with macrophage colony stimulating factor (M-CSF) and receptor activator of NFκB ligand (RANKL) for up to 10 days on plastic, bone or dentin. Two times more osteoclasts formed from long bone marrow cells on bone compared to dentin, whereas higher numbers of jaw osteoclasts formed on dentin. Resorption of dentin or bone was similar for osteoclasts formed from both types of precursors. In contrast to jaw marrow derived osteoclasts, long bone osteoclasts predominantly had a multi-compartmented shape, with at least two nuclei containing compartments per cell. Osteoclasts on bone contained two times more actin rings than osteoclasts on dentin, regardless of their precursor origin. However, the area per osteoclast covered by actin rings was similar (20%) for both substrates. This study suggests that marrow cells obtained from different bones give rise to different osteoclasts. The substrate on which the osteoclasts are generated plays a role in steering their formation rather than their resorption.     

Administration of fibroblast growth factor 2 in combination with bone marrow transplantation synergistically improves carbon-tetrachloride-induced liver fibrosis in mice

We previously reported that fibroblast growth factor 2 (FGF2) facilitated the differentiation of transplanted bone marrow cells (BMCs) into hepatocytes. Our earlier study also demonstrated that administration of FGF2 in combination with bone marrow transplantation (BMT) synergistically activated tumor necrosis factor-alpha signaling and significantly improved liver function and prognosis more than BMT alone. However, the way that it affected the extracellular matrix remained unclear. Here, we investigated the effect of FGF2 treatment together with BMT on liver fibrosis in mice treated with carbon tetrachloride (CCl₄). Transplantation of BMCs and concurrent treatment with FGF2 caused a statistically significant reduction in CCl₄-induced liver fibrosis that was accompanied by strong expression of matrix metalloproteinase 9 as compared with FGF2-only treatment or BMT alone. Moreover, in this process, the proliferation of bone-marrow-derived cells was accelerated without causing apoptosis. Thus, the administration of FGF2 in combination with BMT synergistically improves CCl₄-induced liver fibrosis in mice. This treatment has the potential of being an effective therapy for patients with liver cirrhosis. This study was supported by Grants-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (nos. 16390211 and 16590597) and for translational research from the Ministry of Health, Labor and Welfare (H-trans-5 and H17-Special-015).     

In-vivo imaging of the fracture healing in medaka revealed two types of osteoclasts before and after the callus formation by osteoblasts

The fracture healing research, which has been performed in mammalian models not only for clinical application but also for bone metabolism, revealed that generally osteoblasts are induced to enter the fracture site before the induction of osteoclasts for bone remodeling. However, it remains unknown how and where osteoclasts and osteoblasts are induced, because it is difficult to observe osteoclasts and osteoblasts in a living animal. To answer these questions, we developed a new fracture healing model by using medaka. We fractured one side of lepidotrichia in a caudal fin ray without injuring the other soft tissues including blood vessels. Using the transgenic medaka in which osteoclasts and osteoblasts were visualized by GFP and DsRed, respectively, we found that two different types of functional osteoclasts were induced before and after osteoblast callus formation. The early-induced osteoclasts resorbed the bone fragments and the late-induced osteoclasts remodeled the callus. Both types of osteoclasts were induced near the surface on the blood vessels, while osteoblasts migrated from adjacent fin ray. Transmission electron microscopy revealed that no significant ruffled border and clear zone were observed in early-induced osteoclasts, whereas the late-induced osteoclasts had clear zones but did not have the typical ruffled border. In the remodeling of the callus, the expression of cox2 mRNA was up-regulated at the fracture site around vessels, and the inhibition of Cox2 impaired the induction of the late-induced osteoclasts, resulting in abnormal fracture healing. Finally, our developed medaka fracture healing model brings a new insight into the molecular mechanism for controlling cellular behaviors during the fracture healing.     

Effect of repeated allogeneic bone marrow mononuclear cell transplantation on brain injury following transient focal cerebral ischemia in rats

Aims

Transplantation of bone marrow mononuclear cells (BMMCs) exerts neuroprotection against cerebral ischemia. We examined the therapeutic timepoint of allogeneic BMMC transplantation in a rat model of focal cerebral ischemia, and determined the effects of repeated transplantation outside the therapeutic window.

Main methods

Male Sprague–Dawley rats were subjected to 90 minute focal cerebral ischemia, followed by intravenous administration of 1 × 10⁷ allogeneic BMMCs or vehicle at 0, 3 or 6 h after reperfusion or 2 × 10⁷ BMMCs 6 h after reperfusion. Other rats administered 1 × 10⁷ BMMCs at 6 h after reperfusion received additional BMMC transplantation or vehicle 9 h after reperfusion. Infarct volumes, neurological deficit scores and immunohistochemistry were evaluated 24 or 72 h after reperfusion.

Key findings

Infarct volumes at 24 h were significantly decreased in transplantation rats at 0 and 3 h, but not at 6 h, after reperfusion, compared to vehicle-treatment. Even high dose BMMC transplantation at 6 h after reperfusion was ineffective. Repeated BMMC transplantation at 6 and 9 h after reperfusion reduced infarct volumes and significantly improved neurological deficit scores at 24 and 72 h. Immunohistochemistry showed repeated BMMC transplantation reduced ionized calcium-binding adapter molecule 1, 4-hydroxy-2-nonenal and 8-hydroxydeoxyguanosine expression at 24 and 72 h after reperfusion.

Significance

Intravenous allogeneic BMMCs were neuroprotective following transient focal cerebral ischemia, and the therapeutic time window of BMMC transplantation was > 3 h and < 6 h after reperfusion in this model. Repeated transplantation at 6 and 9 h after reperfusion suppressed inflammation and oxidative stress in ischemic brains, resulting in improved neuroprotection.     

Monoclonal antibodies to carbohydrate antigens in autologous bone marrow transplantation

Normal and malignant myeloid cells express a highly immunogenic oligosaccharide, lacto-n-fucopentaose-III (LNF-III), that has been identified by numerous monoclonal antibodies (MoAb). We have been interested in the use of a particular monoclonal antibody to LNF-III, PM-81, in the treatment of patients with acute myelogenous leukemia using the antibody to treat bone marrow in vitro. Following in vitro treatment of bone marrow with PM-81 and another MoAb, AML-2-23, the remaining cells are used as an autograft in a patient treated with high-dose chemotherapy and radiotherapy. In order to enhance the ability of the MoAb to lyse leukemic cells in the remission bone marrow, we have explored the effect of neuraminidase treatment on leukemia cells. In this paper we describe that myeloid leukemia cells expressing low levels of LNF-III by immunofluorescence can be shown to have high levels of LNF-III after neuraminidase treatment. In addition, we show that normal bone marrow progenitor cells do not have cryptic LNF-III antigen, thus allowing the application of this finding to the clinical setting. Moreover, we have shown that leukemia colony-forming cells from one patient with acute myelogenous leukemia express cryptic LNF-III and that after exposure to neuraminidase there was an increased ability of PM-81 in the presence of complement to eliminate these colony forming cells. These data indicate that the LNF-III moiety is almost universally expressed on myeloid leukemia cells and their progenitors but not expressed on normal progenitors. Thus, it may be possible to enhance leukemia cell kill in vitro by neuraminidase treatment of bone marrow.     

Hepatocyte growth factor is constitutively produced by donor-derived bone marrow cells and promotes regeneration of pancreatic beta-cells

Recent studies have demonstrated that the transplantation of bone marrow cells following diabetes induced by streptozotocin can support the recovery of pancreatic β-cell mass and a partial reversal of hyperglycemia. To address this issue, we examined whether the c-Met/hepatocyte growth factor (HGF) signaling pathway was involved in the recovery of β-cell injury after bone marrow transplantation (BMT). In this model, donor-derived bone marrow cells were positive for HGF immunoreactivity in the recipient spleen, liver, lung, and pancreas as well as in the host hepatocytes. Indeed, plasma HGF levels were maintained at a high value. The frequency of c-Met expression and its proliferative activity and differentiative response in the pancreatic ductal cells in the BMT group were greater than those in the PBS-treated group, resulting in an elevated number of endogenous insulin-producing cells. The induction of the c-Met/HGF signaling pathway following BMT promotes pancreatic regeneration in diabetic rats.     

Mapping of susceptibility and protective loci for acute GVHD in unrelated HLA-matched bone marrow transplantation donors and recipients using 155 microsatellite markers on chromosome 22

Despite matching donors and recipients for the human leukocyte antigens (HLAs) expressed by the major histocompatibility genomic region of the short arm of chromosome 6, several recipients still develop acute graft-versus-host disease (aGVHD) after bone marrow transplantation (BMT). This is possibly due to non-HLA gene polymorphisms, such as minor histocompatibility antigens (mHas) and genes coding for cytokines. However, a detailed genetic background for aGVHD has not yet been established. To find novel susceptibility and/or protective loci for aGVHD, a whole genome-wide association study of donors and recipients needs to be performed. As the first step to such a study, we retrospectively analyzed polymorphisms of 155 microsatellite markers spread across the long arm of chromosome 22 in 70 pairs of HLA-matched unrelated BMT donors and recipients. We performed individual typing and then compared the markers’ allele frequencies (1) between all the aGVHD (grades III and IV GVHD) and GVHD-free (grade 0 GVHD) groups in donors and recipients and (2) between the aGVHD and aGVHD-free groups in donor/recipient pairs that were matched and mismatched for the microsatellite marker’s allele. Screening of the microsatellite markers revealed five loci with a significant difference between the aGVHD and GVHD-free groups and revealed eight loci on chromosome 22, where the microsatellite allele mismatched markers were associated with aGVHD. This screening analysis suggests that several aGVHD-associated susceptible and protective loci exist on chromosome 22, which may encompass novel gene regions that need to be elucidated for their role in aGVHD.     

自体骨髓间充质干细胞移植治疗难治性肝硬化腹水患者的临床疗效观察

目的观察自体骨髓间充质干细胞（BMSC）移植治疗肝硬化难治性腹水的疗效及安全性。方法对2010年9月至2013年9月入住南京总医院消化内科经正规利尿、补充白蛋白达3个月以上且疗效欠佳的32例肝硬化腹水患者,在原有治疗基础上加用自体BMSC移植治疗,分别于治疗前、治疗后1个月及3个月观察腹围、体重、24 h尿量、血清尿素氮、肌酐、尿钠及血清蛋白浓度等指标变化。采用方差分析、配对t检验和Wilcoxon检验进行统计学分析。结果治疗前,患者体重、腹围、24 h尿量及血清尿素氮、肌酐、血清总蛋白、血清白蛋白及尿钠排出水平分别为（66.9±3.8）kg、（94.0±3.6）cm、（966±138.7）ml、（10.5±3.6）mmol/L、（112.4±30.6）μmol/L、（63.8±4.2）g/L、（32.1±2.7）g/L、（43.8±2.3）mmol/L;治疗后1个月,分别为（66.0±3.9）kg、（93.0±3.6）cm、（1032±154.8）ml、（9.9±3.2）mmol/L、（104.8±25.6）μmol/L、（65.3±3.5）g/L、（32.6±2.9）g/L、（44.7±2.7）mmol/L;治疗后3个月,分别为（56.2±3.7）kg、（80.5±4.5）cm、（1530±180.6）ml、（7.9±2.3）mmol/L、（88.7±22.2）μmol/L、（72.8±3.3）g/L、（39.2±1.5）g/L。3个组别8个指标均数比较有统计学意义（F=78.194、117.689、120.527、6.558、6.712、54.827、83.421、493.776,均P=0.000）。治疗后1个月与治疗前水平差异无统计学意义（t分别为0.587、0.636、0.559、0.556、0.678、0.522、0.611、0.592;P=0.331、0.266、0.101、0.416、0.25、0.107、0.447）;而治疗后3个月,患者的体重、腹围较治疗前及治疗后1个月均明显减少,24 h尿量明显增加（与治疗前比较,t=3.722、3.784、3.821,与治疗后1个月比较,t=3.921、3.834、3.944,均P=0.000）,血清尿素氮、肌酐水平较治疗前及治疗后1个月均明显下降;而血清总蛋白、白蛋白及尿钠排出水平均明显升高（与治疗前比较,t=2.182、2.338、2.182、2.412、2.136,P尿素、肌酐=0.001,其余P     

骨髓单个核细胞在周围神经修复中的应用

基础研究证实,多种细胞移植可以促进周围神经修复,其中来源丰富的骨髓单个核细胞,因具有取材过程简单、无交叉感染风险、无免疫排斥、可以自体移植等诸多优点,是目前重要的候选细胞之一。本文就近期有关骨髓单个核细胞的神经修复作用机制的研究、细胞植入修复受损周围神经的文献、以及与各种生物材料复合应用构建的组织工程化神经等方面最新进展进行综述,以期促进该领域基础向临床应用的转化。     

The role of busulfan in bone marrow transplantation

High-dose busulfan is an important component in many conditioning protocols for hematopoietic stem cell transplantation (HSCT) or bone marrow transplantation (BMT) in both adults and children. During the past 12y several studies have reported the wide inter-invidual variability in busulfan disposition. Age, disease status, hepatic function, circadian rhythmicity, drug interactions and bioavailability, were identified as factors contributing to the high inter-individual variability found in busulfan disposition. Traditionally, a standard busulfan dose of 4mg/kg/d for four days is used in most BMT/HSCT protocols. Many investigations have pointed out the pharmacodynamic relationship between a high busulfan systemic exposure and the occurrence of BMT related toxicity including hepatic veno-occlusive disease (VOD), interstitial pneumonia and alopecia in adult patients. However, studies in young patients have shown a high rate of graft failure and subsequently relapse which most probably is due to the low systemic exposure despite the standard dose schedule. In children and infants VOD was not observed with the standard doses. Increasing interest for the drug and new modification strategies for children led to higher rate of VOD and CNS toxicity when busulfans was administered according to the body surface area. More pharmacodynamic studies are required to establish the relation between the systemic exposure to busulfan and the therapeutic efficacy, especially in young children undergoing BMT or HSCT. In the present time an accurate and effective busulfan plasma level monitoring combined with dose adjustment based on the known pharmacological parameters may improve the clinical outcome for patients undergoing BMT.     

Production of human osteoclasts in a three-dimensional bone marrow culture system

Osteoclasts, which are derived from hemopoietic stem cells, play important roles in bone remodeling and resorption. Osteoclast development is critically dependent on the bone microenvironment. We have developed a novel human ex vivo bone marrow model that mimics bone marrow both structurally and functionally by providing artificial scaffolding, thus obtaining a three-dimensional growth configuration with high cell density and intimate physical contact between hemopoietic and stromal cells. In this study, we utilized the 3-D culture system to produce multinucleated cells (MNCs) from human bone marrow cells cultured in the presence of Vitamin D₃ and the absence of hydrocortisone and any exogenous growth factors. These multinucleated cells had the phenotypic and functional characteristics of osteoclasts as determined by their morphology, expression of tartarate resistant acid phosphatase (TRAP), and the ability to resorb bone. Scoring of the resorption pits revealed a dose response to Vitamin D₃ stimulation with 10⁻⁷ M being the optimal concentration. Furthermore, addition of parathyroid hormone (10⁻⁸ M) resulted in an up-to three-fold enhancement of bone resorption. These findings suggest that the 3-D culture system represent a physiologically relevant model to study osteoclastogenesis and elucidate the molecular and cellular signals associated with this process.     

Reversal of new-onset type 1 diabetes in mice by syngeneic bone marrow transplantation

Autologous hematopoietic stem cell transplantation (HSCT) has recently been performed as a novel strategy to treat patients with new-onset type 1 diabetes (T1D). However, the mechanism of autologous HSCT-induced remission of diabetes remains unknown. In order to help clarify the mechanism of remission-induction following autologous HSCT in patients with T1D, mice treated with multiple low doses of streptozotocin to induce diabetes were used as both donors (n = 20) and recipients (n = 20). Compared to streptozocin-treated mice not receiving transplantation, syngeneic bone marrow transplantation (syn-BMT) from a streptozocin-treated diabetic donor, if applied during new-onset T1D (day 10 after diabetes onset), can reverse hyperglycemia without relapse (P < 0.001), maintain normal blood insulin levels (P < 0.001), and preserve islet cell mass. Compared to diabetic mice not undergoing HSCT, syn-BMT, results in restoration of Tregs in spleens (P < 0.01), increased Foxp3 mRNA expression (P < 0.01) and increased Foxp3 protein expression (P < 0.05). This diabetic-remission-inducing effect occurred in mice receiving bone marrow from either streptozocin-treated diabetic or non-diabetic normal donors. We conclude that autologous HSCT remission of diabetes is more than transient immune suppression, and is capable of prolonged remission-induction via regeneration of CD4+CD25+FoxP3+ Tregs.     

Proteomic analysis of serum marker proteins in recipient mice with liver cirrhosis after bone marrow cell transplantation

We previously found that transplantation with bone marrow cells (BMCs) improves liver function and liver fibrosis in cirrhotic mice. In the presence of liver damage induced by carbon tetrachloride (CCl4), transplanted BMC migrated into the peri-portal region and trans-differentiated into hepatocytes that produce albumin. Thus under these conditions, BMC transplantation induces liver regeneration. Detecting serum marker proteins is important to monitor the recovery of liver function of cirrhotic mice after BMC transplantation. We therefore initially resolved proteins extracted from serum samples at 48 h after BMC transplantation by 2-DE and compared spot intensity between control and BMC groups of mice. Six protein spots increased in the BMC group compared with the control group. MS revealed that these spots comprised apolipoprotein A1 (apoA1), apolipoprotein C3 (apoC3), vitamin D-binding protein, alpha-1-antitrypsin and proteasome subunit alpha type 1. We subsequently confirmed the levels of apoA1 in serum and liver samples by immunoblotting. ApoA1 increased at early stage (48 h and 1 wk) after BMC transplantation in this mouse model of liver cirrhosis. The early elevation of apoA1 might be useful to predict liver regeneration in cirrhotic mice after BMC transplantation.     

Influence of fracture gap size on the pattern of long bone healing: a computational study

Following fractures, bones restore their original structural integrity through a complex process in which several cellular events are involved. Among other factors, this process is highly influenced by the mechanical environment of the fracture site. In this study, we present a mathematical model to simulate the effect of mechanical stimuli on most of the cellular processes that occur during fracture healing, namely proliferation, migration and differentiation. On the basis of these three processes, the model then simulates the evolution of geometry, distributions of cell types and elastic properties inside a healing fracture. The three processes were implemented in a Finite Element code as a combination of three coupled analysis stages: a biphasic, a diffusion and a thermoelastic step. We tested the mechano-biological regulatory model thus created by simulating the healing patterns of fractures with different gap sizes and different mechanical stimuli. The callus geometry, tissue differentiation patterns and fracture stiffness predicted by the model were similar to experimental observations for every analysed situation.     

供体骨髓干细胞输注联合肝移植治疗终末期肝病的近期效果观察

目的评价供体骨髓干细胞输注联合肝移植治疗终末期肝病的近期效果。方法2008年3月至2009年1月本中心30例肝移植受者分为两组,实验组8例,行同期供体骨髓干细胞联合肝脏移植;对照组22例,仅行肝脏移植,不行骨髓干细胞输注。观察两组受者术后免疫抑制剂（甲基强的松龙、他克莫司）用量、肝功能（谷氨酸转氨酶、天冬氨酸转氨酶等）变化、急性排斥反应和感染并发症发生情况,以及术后住院时间和费用。采用,检验、方差分析及确切概率法进行统计学分析。结果实验组术后甲基强的松龙总用量和出院时每日他克莫司用量显著低于对照组[甲基强的松龙分别为（1314±105）mg,（1884±256）mg,t=6．060,P=0．000;他克莫司分别为（3．73±0．35）mg／d,（4．93±0．62）mg／d,,=5．147,P=0．000]。术后第1天实验组血清谷氨酸转氨酶、天冬氨酸转氨酶均显著低于对照组[谷氨酸转氨酶分别为（875．2±325．5）IU／L,（1350．4±482．7）IU／L,t=2．543,P=0．016,天冬氨酸转氨酶分别为（646．2±184．9）IU／L,（1021．8±325．4）IU／L,t=3．067,P=0．005]。术后第3天也低于对照组[谷氨酸转氨酶分别为（252．9±35．8）IU／L,（343．5±47．8）IU／L,f=4．866,P=0．000,天冬氨酸转氨酶分别为（227．8±38．0）IU／L,（310．8±61．7）IU／L,t=3．545,P=0．001]。结论同期供体骨髓干细胞联合肝脏移植可以降低术后免疫抑制剂用量,减轻术后早期肝脏损伤,不增加治疗风险,是一种安全有效的治疗方法。     

针对骨髓移植病患中铁过载的去铁治疗研究进展

骨髓移植是临床上治疗恶性造血系统疾病的常见手段。而铁过载是临床上常见的并发症之一,对病患的造血功能和治疗后恢复有极大的抑制作用。了解铁过载产生的分子或遗传机制能帮助优化去铁化方案,提高去铁化治疗的效率。本文总结了骨髓移植前后铁过载现象发生机制的最新研究进展,并阐述了临床上多种去铁治疗的方案,以期为该类病患铁过载的预防和治疗提供参考。