Advances and perspectives on cellular therapy in acquired bone marrow failure diseases

Acquired bone marrow failure diseases(ABMFD) are a class of hematopoietic stem cell diseases with a commonality of non-inherited disruption of hematopoiesis that results in pancytopenia. ABMFDs also are a group of heterogeneous diseases with different etiologies and treatment options. The three most common ABMFDs are aplastic anemia, myelodysplastic syndrome, and paroxysmal nocturnal hemoglobinuria. Stem cell transplantation is the only treatment that can cure these diseases. However, due to high therapy-related mortality, stem cell transplantation has rarely been used as a first line treatment in treating ABMFD. With the advance of personalized medicine and precision medicine, various novel cellular therapy strategies are in trial to increase the efficiency and efficacy of ABMFD treatment. This article aims to review current available stem cell transplantation protocols and promising cellular therapy research in treating ABMFD.

Updates in the pathophysiological mechanisms of Parkinson's disease: Emerging role of bone marrow mesenchymal stem cells

AIM: To explore the approaches exerted by mesenchymal stem cells (MSCs) to improve Parkinson’s disease (PD) pathophysiology.METHODS: MSCs were harvested from bone marrow of femoral bones of male rats, grown and propagated in culture. Twenty four ovariectomized animals were classified into 3 groups: Group (1) was control, Groups (2) and (3) were subcutaneously administered with rotenone for 14 d after one month of ovariectomy for induction of PD. Then, Group (2) was left untreated, while Group (3) was treated with single intravenous dose of bone marrow derived MSCs (BM-MSCs). SRY gene was assessed by PCR in brain tissue of the female rats. Serum transforming growth factor beta-1 (TGF-β1), monocyte chemoattractant protein-1 (MCP-1) and brain derived neurotrophic factor (BDNF) levels were assayed by ELISA. Brain dopamine DA level was assayed fluorometrically, while brain tyrosine hydroxylase (TH) and nestin gene expression were detected by semi-quantitative real time PCR. Brain survivin expression was determined by immunohistochemical procedure. Histopathological investigation of brain tissues was also done.RESULTS: BM-MSCs were able to home at the injured brains and elicited significant decrease in serum TGF-β1 (489.7 ± 13.0 vs 691.2 ± 8.0, P < 0.05) and MCP-1 (89.6 ± 2.0 vs 112.1 ± 1.9, P < 0.05) levels associated with significant increase in serum BDNF (3663 ± 17.8 vs 2905 ± 72.9, P < 0.05) and brain DA (874 ± 15.0 vs 599 ± 9.8, P < 0.05) levels as well as brain TH (1.18 ± 0.004 vs 0.54 ± 0.009, P < 0.05) and nestin (1.29 ± 0.005 vs 0.67 ± 0.006, P < 0.05) genes expression levels. In addition to, producing insignificant increase in the number of positive cells for survivin (293.2 ± 15.9 vs 271.5 ± 15.9, P > 0.05) expression. Finally, the brain sections showed intact histological structure of the striatum as a result of treatment with BM-MSCs.CONCLUSION: The current study sheds light on the therapeutic potential of BM-MSCs against PD pathophysiology via multi-mechanistic actions.

Effects of lateral ventricular transplantation of bone marrow-derived mesenchymal stem cells modified with brain-derived neurotrophic factor gene on cognition in a rat model of Alzheimer's disease

In the present study, transplantation of bone marrow-derived mesenchymal stem cells modified with brain-derived neurotrophic factor gene into the lateral ventricle of a rat model of Alzheimer＇s disease, resulted in significant attenuation of nerve cell damage in the hippocampal CA1 region. Furthermore, brain-derived neurotrophic factor and tyrosine kinase B mRNA and protein levels were significantly increased, and learning and memory were significantly improved. Results indicate that transplantation of bone marrow-derived mesenchymal stem cells modified with brain-derived neurotrophic factor gene can significantly improve cognitive function in a rat model of Alzheimer＇s disease, possibly by increasing the levels of brain-derived neurotrophic factor and tyrosine kinase B in the hippocampus.

Neuronal-like differentiation of bone marrow-derived mesenchymal stem cells induced by striatal extracts from a rat model of Parkinson's disease

A rat model of Parkinson＇s disease was established by 6-hydroxydopamine injection into the medial forebrain bundle. Bone marrow-derived mesenchymal stem cells （BMSCs） were isolated from the femur and tibia, and were co-cultured with 10% and 60% lesioned or intact striatal extracts. The results showed that when exposed to lesioned striatal extracts, BMSCs developed bipolar or multi-polar morphologies, and there was an increase in the percentage of cells that expressed glial fibrillary acidic protein （GFAP）, nestin and neuron-specific enolase （NSE）. Moreover, the percentage of NSE-positive cells increased with increasing concentrations of lesioned striatal extracts. However, intact striatal extracts only increased the percentage of GFAP-positive cells. The findings suggest that striatal extracts from Parkinson＇s disease rats induce BMSCs to differentiate into neuronal-like cells in vitro.

Intracerebroventricular transplanted bone marrow stem cells survive and migrate into the brain of rats with Parkinson's disease

In this study, 6-hydroxydopamine was stereotaxically injected into the right substantia nigra compact and ventral tegmental area of rats to establish Parkinson＇s disease models. The rats then received a transplantation of bone marrow stromal cells that were previously isolated, cultured and labeled with 5-bromo-2＇-deoxyuridine in vitro. Transplantation of the bone marrow stromal cells significantly decreased apomorphine-induced rotation time and the escape latency in the Morris water maze test as compared with rats with untreated Parkinson＇s disease. Immunohistochemical staining showed that, 5-bromo-2＇-deoxyuridine-immunoreactive cells were present in the lateral ventricular wall and the choroid plexus 1 day after transplantation. These immunoreactive cells migrated to the surrounding areas of the lateral cerebral ventricle along the corpus callosum. The results indicated that bone marrow stromal cells could migrate to tissues surround the cerebral ventricle via the cerebrospinal fluid circulation and fuse with cells in the brain, thus altering the phenotype of cells or forming neuron-like cells or astrocytes capable of expressing neuron-specific proteins. Taken together, the present findings indicate that bone marrow stromal cells transplanted intracerebroventricularly could survive, migrate and significantly improve the rotational behavior and cognitive function of rats with experimentally induced Parkinson＇s disease.

Repeated application of autologous bone marrow-derived stem cell therapy in patients with severe Buerger’s disease

Stem cell therapy (SCT) is a promising and prospective approach in the treatment of patients with severe peripheral arterial disorders, primarily with Buerger’s disease. However, very little is known about the duration of the effect of SCT, and to our best knowledge no data are available on the efficacy and safety of repeated SCT in patients with Buerger’s disease. Here we report on two patients with severe Buerger’s disease, who received repeated autologous bone marrow-derived stem cell therapy. Our results show that a second SCT, applied to a previously treated leg 30 or 36 months after the first treatment was efficient in both cases. After twelve months, the clinical state of the repeatedly treated lower limb improved spectacularly and non-healing ulcers healed more rapidly than after the first SCT. No severe adverse events were detected. Thus repeated SCT offers a safe and efficient treatment option for relapsing patients at the advanced stage of Buerger’s disease.

Experimental study of G-CSF alleviating graft-versus-host disease after mixed bone marrow transplantation in mice

Objective： How to reduce the incidence and severity of acute graft-versus-host disease （aGVHD） is a crucial step to improve the overall survival of allogeneic bone marrow transplantation （allo-BMT）. The low incidence of severe aGVHD observed in allogeneic peripheral blood stem cell transplantation （allo-PBSCT）, which may be related to modulating immune function of T lymphocytes by granulocyte colony-stimulating factor （G-CSF） primed donors. The study aimed to explore whether aGVHD could be alleviated by syngeneic bone marrow mixed with G-CSF-mobilized H-2 haploidentical marrow grafting. Methods： Female BALB/c mice and neonatal BALB/c mice were recipients and male （BALB/c × C57BL/6）F1（BCF1） mice were donor mice respectively. Donor mice were injected subcutaneously with G-CSF daily at 0.01 μg/g body weight or saline for 6 days, and splenocytes were harvested on day 6. Spleen index （SI） represented GVHD in neonatal mice after the intraperitoneal injection of mixed spleen cells. Lethally irradiated （^60Co, 8.5 Gy） adult mice were transplanted with a mixture of syngeneic plus G-CSF-mobilized （control diluents） H-2 haploidentical marrow cells. Survival time and survival rate of the recipients were observed after mixed marrow transplantation （MBMT）. GVHD was assessed by observing signs of weight loss, ruffled fur, diarrhea and histological change of skin, liver and small intestines. Enzyme-linked immunosorbent assay （ELISA） method was used to detect cytokines （IL-2, IL-4 and INF-γ）. Fluorescence-activated cell sorting （FACS） analysis was used to detect T cells phenotype. Results： （1） The neonatal mice subject to injection of 2：1 and 1：1 mixed spleen cells and H-2 haploidentical spleen cells all suffered from aGVHD. The severity of aGVHD in recipient mice receiving G-CSF-mobilized splenocytes was dramatically reduced. （2） The aGVHD signs and histological change were observed in most mice of 2：1 and 1：1 MBMT groups. However, the survival time of G-CSF-mobilized MBMT was longer than in control groups and these mice had signs of moderate GVHD. （3） L3T4^＋ cells and relative ratio in both subsets was significantly reduced in G-CSF-treated donor mice. The total number of Thyl.2 and lyt2^＋ cells was increased after G-CSF pretreatment of donors, but no statistical difference. （4） The supernatants from a primary MLR were collected at 48 h for cytokine measurement. The results showed an increased production of IL-4 and a decreased production of IL-2 and INF-γ after stimulating with concanavalin A for 48 h. Conclusion： The GVHD could be reduced using syngeneic bone marrow mixed with H-2 haploidentical marrow cells. The severity of aGVHD in recipient mice receiving G-CSF-mobilized splenocytes or marrow cells could be further moderated, which is associated with increased IL-4 production and decreased IL-2 and INF-y production.

Overexpression of lentivirus-mediated glial cell line-derived neurotrophic factor in bone marrow stromal cells and its neuroprotection for the PC12 cells damaged by lactacystin

Objective To construct recombinant lentiviral vectors for gene delivery of the glial cell line-derived neurotropnic factor （GDNF）, and evaluate the neuroprotective effect of GDNF on lactacystin-damaged PC12 cells by transfecting it into bone marrow stromal cells （BMSCs）. Methods pLenti6/V5-GDNF plasmid was set up by double restriction enzyme digestion and ligation, and then the plasmid was transformed into Top10 cells. Purified pLenti6/V5-GDNF plasmids from the positive clones and the packaging mixture were cotransfected to the 293FT packaging cell line by Lipofectamine2000 to produce lentivirus, then the concentrated virus was transduced to BMSCs. Overexpression of GDNF in BMSCs was tested by RT-PCR, ELISA and immunocytochemistry, and its neuroprotection for lactacystin-damaged PC12 cells was evaluated by MTT assay. Results Virus stock of GDNF was harvested with the titer of 5.6×10^5 TU/mL. After tmnsduction, GDNF-BMSCs successfully secreted GDNF to supematant with nigher concentration （800 pg/mL） than BMSCs did （less than 100 pg/mL）. The supematant of GDNF-BMSCs could significantly alleviate the damage of PC12 cells induced by lactacystin （10 μmol/L）. Conclusion Overexpression of lentivirus-mediated GDNF in the BMSCs cells can effectively protect PC12 cells from the injury by the proteasome inhibitor.

Effect of Fufang Danshen Pill on Bone Marrow Stem Mobilization when Myocardial Scathe

Objective：To investigate the effect of Fufang Danshen pill on bone marrow stem mobilization during myocardial scathe. Methods：Rat models with expansionary myocardial disease were established by Pituitrin and Furazolidone. Experimental rats were divided into the contrast group, the myocardial scathe group （MS group）, the myocardial scathe and Fufang Dansben pill group （ MS ＋ FD group） and the myocardial scathe and fluvastatin group （ MS ＋ FT group）. The ratio of CD34^＋ cells was examined at the 1^st, 3^nl and 6^th weekend. Index of heart structure and function including LVESD, LVEDD. LYEF, LVEDP and dp/dtmax were evaluated at the 6^th weekend. The HW/BW index was calculated. Results：In the MS group, the index of HW/BW, LVESD, LVEDD and LVEDP were obviously increased （P 〈 0.01 ） and index of dp/ dtmax and LVEF were obviously decreased （P 〈 0.05 ）. The ratio of CD34^＋ cells was significantly improved at the 1^at weekend and then reduced slowly with no difference from that of the contrast group at the 6th weekend. Compared the MS ＋ FD group and the MS ＋ FT group with the MS group, the index of HW/BW, LYESD, LYEDD and LYEDP of were signifi cantly decreased （ P 〈 0.05 ） and index of dp/dtmax and LVEF were increased （P 〈 0.01 ）. The ratio of CD34^＋ cells was significantly higher at the 1^st, 3^nl and 6^th weekend, but had no statistic meaning at 3^nl and 6^th weekend （P 〉 0.05 ）. Conclusion：Pituitrin and Furazolidone can be used to establish rat models with expansionary myocardial disease. There has bone marrow stem mobilization during the early period of myocardial scathe. Fufang Danshen pill has effect on improving bone marrow stem mobilization, lightening the expansionary degree of heart and protecting the heart function. The effect of Fufang Danshen pill is as same as that of fluvastatin.

Phase 1 human trial of autologous bone marrow-hematopoietic stem cell transplantation in patients with decompensated cirrhosis

AIM: To evaluate safety and feasibility of autologous bone marrow-enriched CD34+ hematopoietic stem cell Tx through the hepatic artery in patients with decompensated cirrhosis.METHODS: Four patients with decompensated cirrhosis were included. Approximately 200 mL of the bone marrow of the patients was aspirated, and CD34+ stem cells were selected. Between 3 to 10 million CD34+ cells were isolated. The cells were slowly infused through the hepatic artery of the patients.RESULTS: Patient 1 showed marginal improvement in serum albumin and no significant changes in other test results. In patient 2 prothrombin time was decreased; however, her total bilirubin, serum creatinine, and Model of End-Stage Liver Disease (MELD) score worsened at the end of follow up. In patient 3 there was improvement in serum albumin, porthrombin time (PT), and MELD score. Patient 4 developed radiocontrast nephropathy after the procedure, and progressed to type 1 hepatorenal syndrome and died of liver failure a few days later. Because of the major side effects seen in the last patient, the trial was prematurely stopped.CONCLUSION: Infusion of CD34+ stem cells through the hepatic artery is not safe in decompensated cirrhosis. Radiocontrast nephropathy and hepatorenal syndrome could be major side effects. However, this study doesnot preclude infusion of CD34+ stem cells through other routes.

Stem Cell Ophthalmology Treatment Study (SCOTS)： bone marrow-derived stem cells in the treatment of Leber＇s hereditary optic neuropathy

The Stem Cell Ophthalmology Treatment Study （SCOTS） is currently the largest-scale stem cell ophthal- mology trial registered at ClinicalTrials.gov （identifier： NCT01920867）. SCOTS utilizes autologous bone marrow-derived stem cells （BMSCs） to treat optic nerve and retinal diseases. Treatment approaches include a combination of retrobulbar, subtenon, intravitreal, intra-optic nerve, subretinal, and intravenous injection of autologous BMSCs according to the nature of the disease, the degree of visual loss, and any risk factors related to the treatments. Patients with Leber＇s hereditary optic neuropathy had visual acuity gains on the Early Treatment Diabetic Retinopathy Study （ETDRS） of up to 35 letters and Snellen acuity improvements from hand motion to 20/200 and from counting fingers to 20/100. Visual field improvements were noted. Macular and optic nerve head nerve fiber layer typically thickened. No serious complications were seen. The increases in visual acuity obtained in our study were encouraging and suggest that the use of autolo- gous BMSCs as provided in SCOTS for ophthalmologic mitochondrial diseases including Leber＇s hereditary optic neuropathy may be a viable treatment option.

Bone marrow-derived mesenchymal stem cells increase dopamine synthesis in the injured striatum

Previous studies showed that tyrosine hydroxylase or neurturin gene-modified cells transplanted into rats with Parkinson＇s disease significantly improved behavior and increased striatal dopamine content. In the present study, we transplanted tyrosine hydroxylase and neurturin gene-modified bone marrow-derived mesenchymal stem cells into the damaged striatum of Parkinson＇s disease model rats. Several weeks after cell transplantation, in addition to an improvement of motor function tyrosine hydroxylase and neurturin proteins were up-regulated in the injured striatum, and importantly, levels of dopamine and its metabolite 3,4-dihydroxyphenylacetic acid increased significantly. Furthermore, the density of the D2 dopamine receptor in the postsynaptic membranes of dopaminergic neurons was decreased. These results indicate that transplantation of tyrosine hydroxylase and neurturin gene-modified bone marrow-derived mesenchymal stem cells increases dopamine synthesis and significantly improves the behavior of rats with Parkinson＇s disease.

Autologous bone marrow transplantation in decompensated liver: Systematic review and meta-analysis

AIM:To evaluate the efficacy of autologous bone marrow mononuclear cell transplantation in decompensated liver disease.METHODS:Medline,EMBASE,PubMed,Science Direct,and the Cochrane Library were searched for relevant studies.Retrospective case-control studies were included along with randomized clinical trials.Metaanalysis was performed in line with recommendations from the Cochrane Collaboration software review manager.Heterogeneity was assessed using a randomeffects model.RESULTS:Four randomized controlled trials and four retrospective studies were included.Cell transplantation increased serum albumin level by 1.96 g/L(95%CI:0.74-3.17;P = 0.002],2.55 g/L(95%CI:0.32-4.79;P= 0.03),and 3.65 g/L(95%CI:0.76-6.54;P = 0.01)after 1,3,and 6 mo,respectively.Patients who had undergone cell transplantation also had a lower level of total bilirubin[mean difference(MD):-1.37 mg/dL;95%CI:-2.68-(-0.06);P = 0.04]after 6 mo.This decreased after 1 year when compared to standard treatment(MD:-1.26;95%CI:-2.48-(-0.03);P =0.04].A temporary decrease in alanine transaminase and aspartate transaminase were significant in the cell transplantation group.However,after 6 mo treatment,patients who had undergone cell transplantation had a slightly longer prothrombin time(MD:5.66 s,95%CI:0.04-11.28;P = 0.05).Changes in the model for endstage liver disease score and Child-Pugh score were not statistically significant.CONCLUSION:Autologous bone marrow transplantation showed some benefits in patients with decompensated liver disease.However,further studies are still needed to verify its role in clinical treatment for end-stage liver disease.

Reduced glutathione alleviates the toxic effect of 6-hydroxydopamine on bone marrow stromal cells

We studied the effect of reduced glutathione on bone marrow stromal cells （BMSCs） treated with 6-hydroxydopamine （6-OHDA）, which shows a toxic effect on dopaminergic neurons. The proliferation of BMSCs treated with 6-OHDA decreased, while that of BMSCs treated with reduced glutathione increased. The proliferation of BMSCs treated with both 6-OHDA and reduced glutathione was significantly higher compared with that treated with 6-OHDA alone. These findings indicate that reduced glutathione alleviates the toxic effect of 6-OHDA on BMSCs.

Influence of partially purified lymphocyte chalone on bone marrow transplantation in mice

Lymphocyte chalone was partially purified by ultrafiltration and chromatography onSep hadex G75 column.Its inhibitory effect on proliferation of T,B lymphoctes was demonstratedby[~3H]-TdR incorporation method.In mouse bone marrow transplantation model,the treatmentwith lymphocyte chalone in vivo and in vitro was found to have significantly improved the 30 daysurvival rate and mean survival time,suggesting its inhibitory effect on acute graft-versus-host dis-ease(GVHD)and the helpful effect on H-2 incompatible tone marrow transplantation in mice.

Attenuation of GVHD for Allo-Bone Marrow Transplantation Recipient by FasL-Fas Pathway in an H-2 Haplotype Disparate Mouse Combination

In order to explore a new special and effective way to prevent graft versus host disease (GVHD) after allogenic bone marrow transplantation (allo-BMT), the stem cell antigen-1 (Sca-1) + early hematopoietic cells (EHC) from BALB/c mouse (H-2 d) were introduced with exogenous mouse Fas ligand (mFasL) cDNA gene by the retrovirus-mediated gene transfer and expanded for one week, and then they were co-cultured with the spleen mononuclear cells (SMNC) from BAC mouse (H-2 d×b) as one way mixed lymphocyte reaction (OWMLR). The cytotoxicity of treated BAC mouse SMNC against Na 2 51CrO 4 labeling SMNC from BALB/c mouse was observed. The bone marrow mononuclear cells (BMMNC) from BAC mouse treated by the above methods were transplanted into lethally-irradiated congenic BALB/c mice to observe the occurrence of GVHD. The results showed that the SMNC from BAC mouse after OWMLR with exogenous mFasL cDNA gene-transduced hematopoietic cells (HC) from BALB/c mouse in a ratio of 1 to 5 exhibited an obvious inhibition of the cytotoxicity against the BALB/c mouse spleen cells at different effector/target ratios as compared to the control group (P<0.01). The gradeⅠ GVHD or no GVHD and the 80 % survival rate at day 60 post-BMT were observed in the BALB/c mouse receiving BAC mouse BMMNC treated with similar way, while the grade Ⅱ-Ⅲ GVHD and the 20 % survival rate were noted in the control group (P<0.01). It is suggested that the attenuation of GVHD in allo-BMT recipient could be successfully achieved through FasL-Fas pathway in an H-2 haplotype disparate mouse combination.

Acute GvHD and the cutaneous ultrastructural changes in mismatched bone marrow transplantation

Six patients treated with human leukocyte antigen (HLA)-mismatched bone marrow transplantation (BMT) suffered from grade I to IV acute graft-versus-host disease (aGvHD) after engrafting. Up to date, 4 patients with grade I to II GvHD have lived for over 2920, 910, 740 and 680 days, respectively. Two other patients died of grade IV hyperacute GvHD. The results seem to indicate that patients in mismatched BMT have a high incidence of aGvHD within a month. The severity of aGvHD is positively correlated with the degree of HLA mismatching. The higher the degree of mismatch of HLA, the earlier and the more severe the aGvHD occurrs. The cutaneous lesion of the patient with GvHD is severe and of ten complicated by mucositis. Lethal hyperacute GvHD must be considered when a patient shows following signs at beginning: (1) The symptoms appear early (within 2weeks) ;(2) peripheral white blood cell count does not recover (<0. 5×109/L) to normal; and (3) high fever persists. In the epidermal ultrastructure of patients, besides acantholysis, autophagic degeneration of keratinocytes,and satellite cell dyskeratosis, there were scattered necrotic keratinocytes, breaking and thickening of basal membrane and presence of a lot of pigment in the intercellular space. These imply that the ultrastructural damages in the skin of patients with aGvHD after mismatched transplantation are more severe than after matched ones.

Effect of NK cells on GVHD in H-2 haploidentical bone marrow transplantation in mice

To study the effect of natural killer （NK） cells on graft-versus-host disease （GVHD） after H-2 haploidentical bone marrow transplantation （BMT） in mice. Methods ：Murine model of H-2 haploidentical BMT was established by using Balb/c （H- 2d） mouse as recipient, and Balb/c （H-2d）×C57BL/6 （H-2b） （H-2db） mouse as donor. Lethally irradiated Balb/c （H-2d） mice were transplanted with the bone marrow cells from Balb/c（H-2d）×C57BL/6（H-2b） （H-2db） mice containing donor spleen cells and/or NK cells. GVHD and survival rates were studied by observation of clinical manifestations and pathological changes. Results：In the group of bone marrow ＋spleen cells, GVHD was induced in 90% mice; but in the group plus with low amount of NK cells, GVHD was induced in 20% mice; and in the group transplanted with high amount of NK cells, GVHD was induced only in 10% mice. Compared to the group transplanted only with BM plus spleen cells, the incidences of GVHD in the latter two groups decreased significantly （P 〈 0.01） and the survival rates at different periods of 15, 30, 45 and 60 days increased obviously （P 〈 0.01）. Conclusion： In mouse H-2 haploidentical BMT, alloreactive NK cells can reduce the incidence of GVHD and increase the survival rate.