47 research outputs found
Antioxidant vitamins increase the collagen content and reduce MMP-1 in a porcine model of atherosclerosis: implications for plaque stabilization
Degradation of extracellular matrix, particularly interstitial collagen, promotes plaque instability and contributes to restenosis after vascular injury. We have explored the effects of vitamins C and E on the collagen content and metalloproteinase-1 (MMP-1) expression after angioplasty in hypercholesterolemic pigs. Iliac angioplasty was performed on 18 minipigs divided into three diet groups: a normal-cholesterol (NC), a high-cholesterol (HC) and a high-cholesterol plus vitamins C+E (HCV). Four weeks later, after sacrifice, the vascular collagen content and MMP-1 protein expression, along with the plasma caseinolytic activity and lipid peroxidation, were measured. MMP-1 was also determined in arterial rings stimulated with native low-density lipoproteins (LDL) isolated from experimental groups. Cholesterol-rich diet augmented plasma lipid peroxidation (P<0.05), reduced the collagen content and increased vascular MMP-1 expression after injury (P<0.05). Enhanced caseinolytic activity (identified as MMP-1) was also observed in HC plasma samples and in supernatants from arterial rings incubated with HC-LDL. Vitamins C and E markedly increased neointimal collagen content (P<0.01), reduced the hypercholesterolemia-induced changes in vascular MMP-1 (P<0.05) and diminished plasma and ex vivo caseinolytic activity. Vitamins C and E may help stabilize atherosclerotic plaque after angioplasty and favor vascular remodeling by increasing collagen content and reducing vascular MMP-1 expression in porcine hypercholesterolemia
Comparison of ex vivo expansion culture conditions of mesenchymal stem cells for human cell therapy
Mesenchymal stem cells (MSCs) are
multipotent stem cells. Based on their properties,
several clinical trials have been designed to explore
their potential therapeutic effect. Fetal calf serum (FCS,
commonly used for in vitro expansion) is an undesirable
source of xenogeneic antigens and bears the risk of
transmitting contaminations. As an alternative for FCS,
platelet lysate (PL) and both autologous and allogeneic
human serum have been proposed. The aim of this
study is to compare the culture of bone marrow (BM)-
derived MSCs in the presence of different serum
supplements to determine the effect on cell growth, differentiation
potential, and immunologic function
MAPC transplantation confers a more durable benefit than AC133+ cell transplantation
There is a need for comparative studies to determine which cell types are better candidates to remedy ischemia. Here, we compared human AC133+ cells and Multipotent Adult Progenitor Cells (hMAPC) in a mouse model reminiscent of critical limb ischemia. hMAPC or hAC133+ cell transplantation induced a significant improvement in tissue perfusion (measured by microPET) 15 days post-transplantation compared to controls. This improvement persisted for 30 days in hMAPC-treated but not in hAC133+-injected animals. While transplantation of hAC133+ cells promoted capillary growth, hMAPC transplantation also induced collateral expansion, decreased muscle necrosis/fibrosis and improved muscle regeneration. Incorporation of differentiated hAC133+ or hMAPC progeny into new vessels was limited, however, a paracrine angio/arteriogenic effect was demonstrated in animals treated with hMAPC. Accordingly, hMAPC-, but not hAC133+-conditioned media, stimulated vascular cell proliferation and prevented myoblast, endothelial and smooth muscle cell apoptosis in vitro. Our study suggests that although hAC133+ cell and hMAPC transplantation bothcontribute to vascular regeneration in ischemic limbs, hMAPC exert a more robust effect through trophic mechanisms, which translated into collateral and muscle fiber regeneration. This, in turn, conferred tissue protection and regeneration with longer-term functional improvement
Carotid Plaque Age Is a Feature of Plaque Stability Inversely Related to Levels of Plasma Insulin
C-declination curve (a result of the atomic bomb tests in the
1950s and 1960s) to determine the average biological age of carotid
plaques.C
content by accelerator mass spectrometry. The average plaque age (i.e.
formation time) was 9.6±3.3 years. All but two plaques had formed
within 5–15 years before surgery. Plaque age was not associated with
the chronological ages of the patients but was inversely related to plasma
insulin levels (p = 0.0014). Most plaques were
echo-lucent rather than echo-rich (2.24±0.97, range 1–5).
However, plaques in the lowest tercile of plaque age (most recently formed)
were characterized by further instability with a higher content of lipids
and macrophages (67.8±12.4 vs. 50.4±6.2,
p = 0.00005; 57.6±26.1 vs. 39.8±25.7,
p<0.0005, respectively), less collagen (45.3±6.1 vs.
51.1±9.8, p<0.05), and fewer smooth muscle cells (130±31
vs. 141±21, p<0.05) than plaques in the highest tercile.
Microarray analysis of plaques in the lowest tercile also showed increased
activity of genes involved in immune responses and oxidative
phosphorylation.C, can improve our understanding of carotid
plaque stability and therefore risk for clinical complications. Our results
also suggest that levels of plasma insulin might be involved in determining
carotid plaque age
Mechanical properties of cross-linked collagen meshes after human adipose derived stromal cells seeding
The main goal of this study was to evaluate the potential of collagen meshes derived from porcine dermis as scaffolds for repairing pelvic organ prolapses. Mechanical properties of collagen meshes with different cross-linking percentages before and after Adipose Derived Stromal Cells (ADSC) seeding were studied as well as the cell-scaffold interaction. Uniaxial tensile tests of the collagen meshes with three different cross-linking percentages (full-, partial-, and noncross-linked) were carried out along orthogonal directions. Their mechanical properties were studied with the same tests before and after seeding with human derived adipose stem cells (ADSC) after 1 and 7 days. Histological analyses were performed to determine adhesion and proliferation of ADSC. Significant differences in mechanical properties of the unseeded meshes were observed between each orthogonal direction independently of the cross-linking percentage. A better cell adhesion rate was observed in the cross-linked meshes. An increase in the mechanical properties after cell seeding was observed with a direct relation with the degree of cross-linking. All meshes analyzed showed a marked anisotropy that should be taken into account during the surgical procedure. The cross-linking treatment increased cell adhesion and the mechanical properties of the collagen meshes after seeding. These results suggest that the mechanical properties of this type of collagen mesh could be useful as scaffolds for repair of pelvic organ prolapse
Antioxidant vitamins increase the collagen content and reduce MMP-1 in a porcine model of atherosclerosis: implications for plaque stabilization
Degradation of extracellular matrix, particularly interstitial collagen, promotes plaque instability and contributes to restenosis after vascular injury. We have explored the effects of vitamins C and E on the collagen content and metalloproteinase-1 (MMP-1) expression after angioplasty in hypercholesterolemic pigs. Iliac angioplasty was performed on 18 minipigs divided into three diet groups: a normal-cholesterol (NC), a high-cholesterol (HC) and a high-cholesterol plus vitamins C+E (HCV). Four weeks later, after sacrifice, the vascular collagen content and MMP-1 protein expression, along with the plasma caseinolytic activity and lipid peroxidation, were measured. MMP-1 was also determined in arterial rings stimulated with native low-density lipoproteins (LDL) isolated from experimental groups. Cholesterol-rich diet augmented plasma lipid peroxidation (P<0.05), reduced the collagen content and increased vascular MMP-1 expression after injury (P<0.05). Enhanced caseinolytic activity (identified as MMP-1) was also observed in HC plasma samples and in supernatants from arterial rings incubated with HC-LDL. Vitamins C and E markedly increased neointimal collagen content (P<0.01), reduced the hypercholesterolemia-induced changes in vascular MMP-1 (P<0.05) and diminished plasma and ex vivo caseinolytic activity. Vitamins C and E may help stabilize atherosclerotic plaque after angioplasty and favor vascular remodeling by increasing collagen content and reducing vascular MMP-1 expression in porcine hypercholesterolemia
Regeneración miocárdica: el futuro al alcance de la mano
En los últimos años hemos asistido a un interés creciente por el
tratamiento de la insuficiencia cardíaca mediante el trasplante de
células madre. Mientras que los estudios con células madre de músculo
(mioblastos) se iniciaron hace mas de 10 años, la posibilidad
de que las células madre de la médula ósea tengan un enorme potencial
de diferenciación y proliferación han estimulado la investigación
con otros tipos de células madre. Estos estudios experimentales han
demostrado, en no pocas ocasiones, resultados contradictorios lo
que ha llevado a posturas enfrentadas en cuanto a la ética de iniciar
estudios clínicos. Creemos que es adecuado tratar de ofrecer una
visión crítica sobre la utilización de las células madre en la insuficiencia
cardíaca. Quizá la pregunta mas difícil de contestar en este
momento es, si la realización de ensayos clínicos esta justificado o
no a la luz de los conocimientos actuales o si por el contrario debemos
adquirir un conocimiento mucho más preciso de la posible
eficacia de este tipo de tratamiento y de los mecanismos que justifican
dicha eficacia, antes de siquiera iniciar los estudios en humanos.
En nuestra opinión existen suficientes evidencias que justifican el
desarrollo de ensayos clínicos a pesar de que, sin duda, existen
muchos interrogantes que debemos resolver mediante estudios experimentales
en animales
Regeneración miocárdica: el futuro al alcance de la mano
En los últimos años hemos asistido a un interés creciente por el
tratamiento de la insuficiencia cardíaca mediante el trasplante de
células madre. Mientras que los estudios con células madre de músculo
(mioblastos) se iniciaron hace mas de 10 años, la posibilidad
de que las células madre de la médula ósea tengan un enorme potencial
de diferenciación y proliferación han estimulado la investigación
con otros tipos de células madre. Estos estudios experimentales han
demostrado, en no pocas ocasiones, resultados contradictorios lo
que ha llevado a posturas enfrentadas en cuanto a la ética de iniciar
estudios clínicos. Creemos que es adecuado tratar de ofrecer una
visión crítica sobre la utilización de las células madre en la insuficiencia
cardíaca. Quizá la pregunta mas difícil de contestar en este
momento es, si la realización de ensayos clínicos esta justificado o
no a la luz de los conocimientos actuales o si por el contrario debemos
adquirir un conocimiento mucho más preciso de la posible
eficacia de este tipo de tratamiento y de los mecanismos que justifican
dicha eficacia, antes de siquiera iniciar los estudios en humanos.
En nuestra opinión existen suficientes evidencias que justifican el
desarrollo de ensayos clínicos a pesar de que, sin duda, existen
muchos interrogantes que debemos resolver mediante estudios experimentales
en animales