Genetic modification of mesenchymal stem cells overexpressing CCR1 increases cell viability, migration, engraftment, and capillary density in the injured myocardium

RATIONALE

Although mesenchymal stem cell (MSC) transplantation has been shown to promote cardiac repair in acute myocardial injury in vivo, its overall restorative capacity appears to be restricted mainly because of poor cell viability and low engraftment in the ischemic myocardium. Specific chemokines are upregulated in the infarcted myocardium. However the expression levels of the corresponding chemokine receptors (eg, CCR1, CXCR2) in MSCs are very low. We hypothesized that this discordance may account for the poor MSC engraftment and survival.

OBJECTIVE

To determine whether overexpression of CCR1 or CXCR2 chemokine receptors in MSCs augments their cell survival, migration and engraftment after injection in the infarcted myocardium.

METHODS AND RESULTS

Overexpression of CCR1, but not CXCR2, dramatically increased chemokine-induced murine MSC migration and protected MSC from apoptosis in vitro. Moreover, when MSCs were injected intramyocardially one hour after coronary artery ligation, CCR1-MSCs accumulated in the infarcted myocardium at significantly higher levels than control-MSCs or CXCR2-MSCs 3 days postmyocardial infarction (MI). CCR1-MSC-injected hearts exhibited a significant reduction in infarct size, reduced cardiomyocytes apoptosis and increased capillary density in injured myocardium 3 days after MI. Furthermore, intramyocardial injection of CCR1-MSCs prevented cardiac remodeling and restored cardiac function 4 weeks after MI.

CONCLUSIONS

Our results demonstrate the in vitro and in vivo salutary effects of genetic modification of stem cells. Specifically, overexpression of chemokine receptor enhances the migration, survival and engraftment of MSCs, and may provide a new therapeutic strategy for the injured myocardium.

Secreted frizzled related protein 2 protects cells from apoptosis by blocking the effect of canonical Wnt3a

We have demonstrated that mesenchymal stem cells overexpressing the survival gene Akt can confer paracrine protection to ischemic myocytes both in vivo and in vitro through the release of secreted frizzled related protein 2 (Sfrp2). However, the mechanisms mediating these effects of Sfrp2 have not been fully elucidated. In this study, we studied rat cardiomyoblasts subjected to hypoxia reoxygenation (HR) injury to test the hypothesis that Sfrp2 exerts anti-apoptotic effect by antagonizing pro-apoptotic properties of specific Wnt ligands. We examined the effect of Wnt3a and Sfrp2 on HR-induced apoptosis. Wnt3a significantly increased cellular caspase activities and TUNEL staining in response to HR. Sfrp2 attenuated significantly Wnt3a-induced caspase activities in a concentration dependent fashion. Using a solid phase binding assay, our data demonstrates that Sfrp2 physically binds to Wnt3a. In addition, we observed that Sfrp2 dramatically inhibits the beta-catenin/TCF transcriptional activities induced by Wnt3a. Impressively, Dickkopf-1, a protein that binds to the Wnt coreceptor LRP, significantly inhibited the Wnt3a-activated caspase and transcriptional activities. Similarly, siRNA against beta-catenin markedly inhibited the Wnt3a-activated caspase activities. Consistent with this, significantly fewer TUNEL positive cells were observed in siRNA transfected cells than in control cells. Together, our data provide strong evidence to support the notion that Wnt3a is a canonical Wnt with pro-apoptotic action whose cellular activity is prevented by Sfrp2 through, at least in part, the direct binding of these molecules. These results can explain the in vivo protective effect of Sfrp2 and highlight its therapeutic potential for the ischemic heart.

Evaluation of the usefulness of phage amplification technology in the diagnosis of patients with paucibacillary tuberculosis

The present study was undertaken to assess the performance of the Fast Plaque TB(TM) (FPTB) test in the diagnostically difficult group of paucibacillary tuberculosis (TB) and to compare its results with the conventional bacteriological methods. The study was conducted on a total of 139 patients, who were negative for TB in sputum-smear examination. Bronchoalveolar lavage (BAL) or pleural biopsy specimens collected from these patients were subjected to smear examination, LJ culture and FPTB test. The smear, culture and the FPTB positivity rates were compared between patients with pulmonary and pleuro-pulmonary involvement. The FPTB test was found to register an overall sensitivity of 58.8% and specificity of 97.9%. The positive and negative predictive values of the test were 98.1 and 56.5, respectively. Among patients with paucibacillary TB, on head-to-head comparison, we found that the sensitivity and specificity values of the FPTB test were marginally better than smear-microscopy and inferior to culture on LJ media.

X-ray diffuse scattering measurements of nucleation dynamics at femtosecond resolution

Femtosecond time-resolved small and wide angle x-ray diffuse scattering techniques are applied to investigate the ultrafast nucleation processes that occur during the ablation process in semiconducting materials. Following intense optical excitation, a transient liquid state of high compressibility characterized by large-amplitude density fluctuations is observed and the buildup of these fluctuations is measured in real time. Small-angle scattering measurements reveal snapshots of the spontaneous nucleation of nanoscale voids within a metastable liquid and support theoretical predictions of the ablation process.

SFRP2 regulates cardiomyogenic differentiation by inhibiting a positive transcriptional autofeedback loop of Wnt3a

Wnts comprise a family of 20 lipid-modified glycoproteins in mammals and play critical roles during embryological development and organogenesis of several organ systems, including the heart. They are required for mesoderm formation and have been implicated in promoting cardiomyogenic differentiation of mammalian embryonic stem cells, but the underlying mechanisms regulating Wnt signaling during cardiomyogenesis remain poorly understood. In this report, we show that in a pluripotent mouse embryonal carcinoma stem cell line, SFRP2 inhibits cardiomyogenic differentiation by regulating Wnt3a transcription. SFRP2 inhibited early stages of cardiomyogenesis, preventing mesoderm specification and maintaining the cells in the undifferentiated state. Using a gain- and loss-of-function approach, we demonstrate that although addition of recombinant SFRP2 decreased Wnt3a transcription and cardiomyogenic differentiation, silencing of Sfrp2 led to enhanced Wnt3a transcription, mesoderm formation, and increased cardiomyogenesis. We show that the inhibitory effects of SFRP2 on Wnt transcription are secondary to interruption of a positive feedback effect of Wnt3a on its own transcription. Wnt3a increased its own transcription via the canonical pathway and TCF4 family of transcription factors, and the inhibitory effects of SFRP2 on Wnt3a transcription were associated with disruption of downstream canonical Wnt signaling. The inhibitory effects of Sfrp2 on Wnt3a expression identify Sfrp2 as a "checkpoint gene," which exerts its control on cardiomyogenesis through regulation of Wnt3a transcription.

Carrier-density-dependent lattice stability in InSb

The ultrafast decay of the x-ray diffraction intensity following laser excitation of an InSb crystal has been utilized to observe carrier dependent changes in the potential energy surface. For the first time, an abrupt carrier dependent onset for potential energy surface softening and the appearance of accelerated atomic disordering for a very high average carrier density have been observed. Inertial dynamics dominate the early stages of crystal disordering for a wide range of carrier densities between the onset of crystal softening and the appearance of accelerated atomic disordering.

Secreted frizzled related protein 2 (Sfrp2) is the key Akt-mesenchymal stem cell-released paracrine factor mediating myocardial survival and repair

Stem cell therapy has emerged as a promising tool for the treatment of a variety of diseases. Previously, we have shown that Akt-modified mesenchymal stem cells mediate tissue repair through paracrine mechanisms. Using a comprehensive functional genomic strategy, we show that secreted frizzled related protein 2 (Sfrp2) is the key stem cell paracrine factor that mediates myocardial survival and repair after ischemic injury. Sfrp2 is known to modulate Wnt signaling, and we demonstrate that cardiomyocytes treated with secreted frizzled related protein increase cellular beta-catenin and up-regulate expression of antiapoptotic genes. These findings reveal the key role played by Sfrp2 in mediating the paracrine effects of Akt-mesenchymal stem cells on tissue repair and identify modulation of Wnt signaling as a therapeutic target for heart disease.

Mesenchymal stem cells overexpressing Akt dramatically repair infarcted myocardium and improve cardiac function despite infrequent cellular fusion or differentiation

We previously reported that intramyocardial injection of bone marrow-derived mesenchymal stem cells overexpressing Akt (MSC-Akt) efficiently repaired infarcted rat myocardium and improved cardiac function. Controversy still exists over the mechanisms by which MSC contribute to tissue repair. Herein, we tested if cellular fusion of MSC plays a determinant role in cardiac repair. We injected MSC expressing Cre recombinase, with or without Akt, into Cre reporter mice. In these mice, LacZ is expressed only after Cre-mediated excision of a loxP-flanked stop signal and is indicative of fusion. MSC engraftment within infarcted myocardium was transient but significantly enhanced by Akt. MSC fusion with cardiomyocytes was observed as early as 3 days, but was infrequent, and we found a low rate of differentiation of MSC into cardiomyocytes. MSC-Akt decreased infarct size at 3 days and restored early cardiac function. In conclusion, MSC-Akt improved early repair despite transient engraftment, low levels of cellular fusion, and differentiation. These new observations further confirm our recently reported data that early paracrine mechanisms mediated by MSC are responsible for enhancing the survival of existing myocytes and that Akt could alter the secretion of various cytokines and growth factors.

Myocardial-cell replacement: the science, the clinic and the future

The traditional view of the heart is of an organ incapable of self-renewal. Hypotheses on the genesis of pump dysfunction in heart failure include emerging concepts of myocyte deficiency due to attritional ischemia and chronic apoptotic cell loss. In the adult heart, inadequate regenerative capacity was presumed to exist to counterbalance such extensive myocyte depletion. Preliminary animal and human studies now challenge the paradigm of myocardial regenerative inadequacy, with findings suggesting that noncardiac cells implanted in the dysfunctional heart augment myocyte deficiency and contractile mass. Data from these studies remain inconclusive and have generated much debate in the basic science and clinical communities. Controversial issues center on the scientific basis for regeneration in the heart, the mechanism of cell-therapy benefit and the safety and appropriateness of clinical trials based on these concepts. This review will evaluate the scientific basis for myocardial-cell replacement, with emphasis on current experimental and human data. We will explore unresolved questions of experimental design, mechanism of action, therapeutic strategies and safety concerns in an era of rising numbers of human cell-therapy trials. Prospects for more widespread clinical application of myocardial-cell replacement and future hurdles to be overcome in this field will also be addressed.

Epidemiological, microbiological & electron microscopic study of a cholera outbreak in a Kolkata slum community

BACKGROUND & OBJECTIVE

Epidemics of cholera caused by Vibrio cholerae O1 or O139 have been reported from different parts of India. Factors such as unsafe water supply, poor environmental sanitation, indiscriminate defaecation and lack of personal hygiene are mainly responsible for continued transmission of this disease. We report here epidemiological and microbiological findings of a localized outbreak of cholera, which occurred during March and April 2004 in the eastern part of Kolkata city.

METHODS

The affected slum area has a population of 4409, predominantly muslims. Patients suffering from acute watery diarrhoea attended the health outposts organized by National Institute of Cholera and Enteric Diseases, Kolkata and International Vaccine Institute, South Korea as part of a routine surveillance programme at the locality as well as the emergency medical camp organized by the Kolkata Municipal Corporation. Stool and water samples were collected and tested for diarrhoeagenic pathogens in the laboratory. Bacteriophages specific for V. cholerae were isolates and studied electron microscopically for morphology.

RESULTS

A total of 89 diarrhoea cases were reported giving an attack rate of 2 per cent. V. cholerae O1 biotype ElTor, serotype Ogawa was isolated as a sole pathogen from 15 (15.8%) of 89 stool samples screened. Water samples (2 from tube wells, 3 from municipal taps and 1 from well) showed presence of coliform bacilli with high MPN (Most Probable Number) count. Bacteriophages specific to V. cholerae were isolated from 2 of 6 water samples examined. A leakage was detected in the main pipeline supplying drinking water to that area.

INTERPRETATION & CONCLUSION

The outbreak was caused by V. cholerae O1 (Ogawa) biotype ElTor. The presence of phages in the water samples was an additional indicator for V. cholerae contamination in this community. Occurrences of such outbreaks support vaccination against cholera as an alternative strategy.

Primary synovial sarcoma of the mitral valve

Primary cardiac synovial sarcoma is a rare malignancy, comprising approximately 5% of cardiac sarcomas and less than 0.1% of all primary cardiac tumors. Herein, we describe a synovial sarcoma arising on the anterior mitral leaflet in a 66-year-old man. The histopathologic diagnosis was supported by the immunohistochemical profile and the presence of the SYT-SSX1 fusion transcript identified by molecular genetic studies.

Bone marrow-derived myofibroblasts are present in adult human heart valves

BACKGROUND AND AIM OF THE STUDY

Endothelial, smooth muscle and cardiomyocyte chimerism has been shown to occur in the human heart. It is currently unknown whether the bone marrow contributes to cellular components of adult human heart valves. Here, it was determined whether bone marrow-derived smooth muscle-like cells (SMLC) are present in the heart valves of adult subjects.

METHODS

By combining immunofluorescence staining and fluorescence in-situ hybridization (FISH) for X and Y chromosomes, the heart valves of gender-mismatched bone marrow transplant patients were examined for the presence of chimeric cells expressing calponin, a smooth muscle-specific protein. Concomitant staining for CD68 antigen was carried out to exclude cells of a monocytic lineage.

RESULTS

The mean percentage of bone marrow-derived SMLC in valves was 0.28 +/- 0.03%, with the total proportion of chimeric cells estimated at 0.71 +/- 0.05%. The mean proportion of CD68+ cells was 0.33 +/- 0.05%. Not a single cell stained doubly for calponin and CD68 antigen.

CONCLUSION

These data establish, for the first time, human bone marrow as a source of progenitor cells contributing to SMLC in adult human heart valves.

Proapoptotic, Antimigratory, Antiproliferative, and Antiangiogenic Effects of Commercial C-Reactive Protein on Various Human Endothelial Cell Types In Vitro

Recent experimental studies suggest C-reactive protein (CRP) may be a potential mediator of atherosclerosis and its complications. However, there is growing criticism of in vitro CRP studies that use commercial CRP preparations containing biologically active contaminants. The effects of commercial CRP, dialyzed commercial CRP (dCRP) to remove azide, and sodium azide (NaN 3 ) alone at equivalent concentrations to the undialyzed preparation were tested at varying concentrations on human umbilical vein endothelial cells (HUVEC), circulating endothelial outgrowth cells (EOC), and endothelial progenitor cells (EPC) in vitro. CRP and NaN 3 alone exhibited equivalent concentration-dependent, proapoptotic effects on HUVEC, EOC, and EPC ( P <0.01 versus control), whereas dCRP had no such effect. Similarly, CRP and NaN 3 alone caused equivalent concentration-dependent decreases in migration, proliferation, and matrigel tube formation ( P <0.01 versus control) in EOC and HUVEC, whereas dCRP had absolutely no effect on these biological functions at any of the concentrations used. We conclude that proapoptotic, antiproliferative, antimigratory, and antiangiogenic effects of this commercial CRP preparation on a number of endothelial cell phenotypes in culture may be explained by the presence of sodium azide in this preparation. This study has implications for interpretation of in vitro studies using CRP preparations containing azide at equivalent or higher concentrations.

Leptin receptor and functional effects of leptin in human endothelial progenitor cells

Circulating endothelial progenitor cells (EPCs) may be involved in the maintenance of vascular homeostasis and their impairment may be conducive to vascular disease. We studied the role of an adipocyte-derived hormone, leptin, in the regulation of human EPC function. EPCs were grown from human circulating mononuclear cells. The presence of the leptin receptor and the functional effects of leptin in EPCs were investigated. EPCs stained positive for endothelial cell markers (Flk-1 and Tie-2 receptors) and the hematopoietic CD34 marker. The presence of the long form of the leptin receptor in EPCs was confirmed by Western blotting and with immunofluorescence. Leptin, at a physiological concentration of 10 ng/ml, significantly increased tube formation from 2.1+/-2.2 to 12.4+/-4.9 tubes/25 mm2. At a higher concentration of 100 ng/ml of leptin, tube formation was reduced compared to the lower concentration. This higher concentration of leptin also inhibited EPC migration, decreasing it from 0.45+/-0.14 to 0.28+/-0.12 mm/48 h. Leptin did not have any effect on EPC proliferation. In summary, the leptin receptor is present in human EPCs and leptin may affect EPC function, both in physiological and in hyperleptinemic conditions. These findings are relevant to leptin-mediated regulation of vasculogenesis in humans, and the association between hyperleptinemia and obesity with cardiovascular disease.

Lipoprotein(a): new insights into mechanisms of atherogenesis and thrombosis

Lipoprotein(a) (Lp[a]) continues to be a controversial molecule regarding its role in human vascular disease. Although the physiologic role of this molecule is still unclear, novel discoveries within the last few years have suggested numerous mechanisms whereby Lp(a) may contribute to atherosclerosis and its complications in human subjects. These effects may differentially occur in vascular tissue and circulating blood compartments. A complex interplay between tissue-specific effects is probably more relevant to the pathogenicity of this molecule than one single effect alone. This review briefly describes the structure of Lp(a) in relation to its biochemical function, summarizing the current literature on various pathophysiologic mechanisms of Lp(a)-induced vascular disease and the role of cell and tissue-specific effects in promoting atherogenesis and thrombosis.

Integrin profile and in vivo homing of human smooth muscle progenitor cells

BACKGROUND

Recently, we identified circulating smooth muscle progenitor cells (SPCs) in human peripheral blood. The integrin profile of such progenitors is currently unknown and may affect their in vivo homing characteristics. In this study, we determined the integrin profile of vascular progenitors and SPC adhesion to extracellular matrix (ECM) proteins in vitro and in vivo.

METHODS AND RESULTS

SPCs and endothelial progenitor cells (EPCs) were isolated from peripheral blood of healthy human subjects, and expression of surface integrins and adhesion to several vascular ECM proteins were determined. Homing of SPCs in vivo to specific ECM protein was determined by intracoronary infusion of fluorescent SPCs into porcine coronary arteries containing a fibronectin-coated mesh stent. SPCs had high expression of beta1 integrin, moderate expression of alpha1, low levels of alpha(v)beta3, and did not express alpha(v)beta5, beta2, alpha2beta1, or alpha4beta1 integrins. In contrast, EPCs had high expression of alpha2beta1, alpha(v)beta3, alpha(v)beta5, beta1, and alpha1 and minimal expression of alpha4beta1. Moreover, SPCs showed increased adherence to fibronectin and collagen type I compared with vitronectin, consistent with their integrin profile, and demonstrated a similar degree of in vivo attachment to fibronectin-coated mesh.

CONCLUSIONS

These data for the first time show a spectrum of integrin expression on vascular progenitors and suggest the potential importance of integrins in mediating adherence of SPCs to specific ECM both in vitro and in vivo.

Wood-smoke exposure: an unusual cause of miliary mottling on X-ray chest

A case of wood smoke inhalation related lung disease presenting with miliary mottling on radiography is described. Transbronchial lung biopsy showed the presence of coal macules.

Endothelial progenitor cells are decreased in blood of cardiac allograft patients with vasculopathy and endothelial cells of noncardiac origin are enriched in transplant atherosclerosis

BACKGROUND

Recent studies in animals suggest that circulating recipient endothelial precursors may participate in the biology of transplant vasculopathy. It is currently unknown whether a similar interaction between recipient endothelial cells and the vessel wall occurs in human subjects undergoing allogeneic cardiac transplantation.

METHODS AND RESULTS

Circulating endothelial cells and endothelial progenitor cells (EPCs) were quantified in 15 cardiac transplantation subjects with and without angiographic evidence of vasculopathy. In a separate series of experiments, the origin (donor or recipient) of transplant plaque endothelial cells was assessed in subjects who had undergone a gender-mismatched cardiac transplantation and had histological evidence of severe vasculopathy at the time of heart explantation. Circulating EPC outgrowth colonies in peripheral blood were significantly reduced in subjects with transplant vasculopathy compared with those without angiographic evidence of disease (EPC colony-forming units [CFUEPC]: 4.5+/-1.9 versus 15.1+/-3.7, P<0.05). There was no significant difference in circulating endothelial cell numbers as defined by day 4 culture acetylated LDL/lectin assay in either of these patient groups. In a separate group of 5 subjects who underwent gender-mismatched cardiac transplantation, there was a significant seeding of recipient endothelial cells (range: 1% to 24% of all luminal endothelial cells) in large-vessel lumen and adventitial microvessel lumen of arteriopathic vessels. No opposite-sex chimeric cells were observed in control gender-matched transplantation scenarios.

CONCLUSIONS

These data suggest that the human cardiac transplant arteriopathy is associated with reduction in circulating endothelial precursors and with seeding of recipient-derived endothelial cells at the site of plaque development.