31,885 research outputs found
Biological niches within human calcified aortic valves. Towards understanding of the pathological biomineralization process
Despite recent advances, mineralization site, its microarchitecture, and composition in calcific heart valve remain poorly
understood. A multiscale investigation, using scanning electron microscopy (SEM), transmission electron microscopy (TEM),
and energy dispersive X-ray spectrometry (EDS), from micrometre up to nanometre, was conducted on human severely calcified
aortic and mitral valves, to provide new insights into calcificationp rocess. Our aim was to evaluate the spatial relationship existing
between bioapatite crystals, their local growing microenvironment, and the presence of a hierarchical architecture. Here we detected
the presence of bioapatite crystals in two different mineralization sites that suggest the action of two different growth processes:a
pathological crystallization process that occurs in biological niches and is ascribed to a purely physicochemical process and a matrix-
mediated mineralized process in which the extracellular matrix acts as the template for a site-directed nanocrystals nucleation.
Different shapes of bioapatite crystallization were observed at micrometer scale in each microenvironment but at the nanoscale
level crystals appear to be made up by the same subunit
Hyperglycemia and Hyperlipidemia Act Synergistically to Induce Renal Disease in LDL Receptor-Deficient BALB Mice
Diabetic nephropathy is the leading cause of end-stage renal disease in Western countries, but only a portion of diabetic patients develop diabetic nephropathy. Dyslipidemia represents an important aspect of the metabolic imbalance in diabetic patients. In this study, we addressed the impact of combined hyperlipidemia and hyperglycemia on renal pathology. Kidneys from wildtype (WT) or LDL receptor-deficient BALB/cBy mice (BALB. LDLR -/-) were examined at 22 weeks of age. Diabetes was induced by administration of streptozotocin and mice were randomly assigned to either standard chow or Western diet. Chow fed BALB. LDLR -/- mice did not demonstrate renal abnormalities, whereas BALB. LDLR -/- mice fed a Western diet showed occasional glomerular and tubulointerstitial foam cells. Diabetic WT mice had modestly increased glomerular cellularity and extracellular matrix. Hyperlipidemic and diabetic BALB. LDLR -/- mice exhibited an increase in glomerular cellularity and extracellular matrix, accumulation of glomerular and tubulointerstitial foam cells and mesangial lipid deposits. The tubular epithelium demonstrated pronounced lipid induced tubular degeneration with increased tubular epithelial cell turnover. Hyperlipidemia and hyperglycemia seem to act synergistically in inducing renal injury in the BALB. LDLR-/- mouse. This model of diabetic nephropathy is unique in its development of tubular lesions and may represent a good model for hyperlipidemia-exacerbated diabetic nephropathy. Copyright (C) 2004 S. Karger AG, Basel
Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eye.
Accumulation of protein- and lipid-containing deposits external to the retinal pigment epithelium (RPE) is common in the aging eye, and has long been viewed as the hallmark of age-related macular degeneration (AMD). The cause for the accumulation and retention of molecules in the sub-RPE space, however, remains an enigma. Here, we present fluorescence microscopy and X-ray diffraction evidence for the formation of small (0.5-20 ÎŒm in diameter), hollow, hydroxyapatite (HAP) spherules in Bruch's membrane in human eyes. These spherules are distinct in form, placement, and staining from the well-known calcification of the elastin layer of the aging Bruch's membrane. Secondary ion mass spectrometry (SIMS) imaging confirmed the presence of calcium phosphate in the spherules and identified cholesterol enrichment in their core. Using HAP-selective fluorescent dyes, we show that all types of sub-RPE deposits in the macula, as well as in the periphery, contain numerous HAP spherules. Immunohistochemical labeling for proteins characteristic of sub-RPE deposits, such as complement factor H, vitronectin, and amyloid beta, revealed that HAP spherules were coated with these proteins. HAP spherules were also found outside the sub-RPE deposits, ready to bind proteins at the RPE/choroid interface. Based on these results, we propose a novel mechanism for the growth, and possibly even the formation, of sub-RPE deposits, namely, that the deposit growth and formation begin with the deposition of insoluble HAP shells around naturally occurring, cholesterol-containing extracellular lipid droplets at the RPE/choroid interface; proteins and lipids then attach to these shells, initiating or supporting the growth of sub-RPE deposits
Porcine bone scaffolds adsorb growth factors secreted by MSCs and improve bone tissue repair
An ideal tissue-engineered bone graft should have both excellent pro-osteogenesis and
pro-angiogenesis properties to rapidly realize the bone regeneration
in vivo
. To meet this goal, in
this work a porcine bone scaffold was successfully used as a Trojan horse to store growth factors
produced by mesenchymal stem cells (MSCs). This new scaffold showed a time-dependent release
of bioactive growth factors, such as vascular endothelial growth factor (VEGF) and basic fibroblast
growth factor (bFGF),
in vitro
. The biological effect of the growth factors-adsorbed scaffold on the
in vitro
commitment of MSCs into osteogenic and endothelial cell phenotypes has been evaluated.
In addition, we have investigated the activity of growth factor-impregnated granules in the repair of
critical-size defects in rat calvaria by means of histological, immunohistochemical, and molecular
biology analyses. Based on the results of our work bone tissue formation and markers for bone
and vascularization were significantly increased by the growth factor-enriched bone granules after
implantation. This suggests that the controlled release of active growth factors from porcine bone
granules can enhance and promote bone regeneratio
MR Elastography-Based Assessment of Matrix Remodeling at Lesion Sites Associated With Clinical Severity in a Model of Multiple Sclerosis
Magnetic resonance imaging (MRI) with gadolinium based contrast agents (GBCA) is routinely used in the clinic to visualize lesions in multiple sclerosis (MS). Although GBCA reveal endothelial permeability, they fail to expose other aspects of lesion formation such as the magnitude of inflammation or tissue changes occurring at sites of blood-brain barrier (BBB) disruption. Moreover, evidence pointing to potential side effects of GBCA has been increasing. Thus, there is an urgent need to develop GBCA-independent imaging tools to monitor pathology in MS. Using MR-elastography (MRE), we previously demonstrated in both MS and the animal model experimental autoimmune encephalomyelitis (EAE) that inflammation was associated with a reduction of brain stiffness. Now, using the relapsing-remitting EAE model, we show that the cerebellum-a region with predominant inflammation in this model-is especially prone to loss of stiffness. We also demonstrate that, contrary to GBCA-MRI, reduction of brain stiffness correlates with clinical disability and is associated with enhanced expression of the extracellular matrix protein fibronectin (FN). Further, we show that FN is largely expressed by activated astrocytes at acute lesions, and reflects the magnitude of tissue remodeling at sites of BBB breakdown. Therefore, MRE could emerge as a safe tool suitable to monitor disease activity in MS
Tumor angiogenic switch determines sustained proliferative malignant transformation in tumorigenesis and overlaps with para-inflammatory phenomena
Contextual BCR-ABL tyrosine kinase over-activity determines in formulated fashion the emergence of
proliferation and anti-apoptosis that arise largely as derived phenomena of otherwise homeostatic mechanisms of
the c-ABL gene within hematopoietic stem cells and hemangioblasts in the bone marrow. The ability to suppress
almost completely, both in terms of phenotype and cytogenetically, the myeloid cell line expansion by imatinib
mesylate is indicative of a phenomenon that depends strictly on the transformed status of the cell of origin in the
chronic myeloid leukemia process. It is with relevance to complex participation of the dynamics of the fused BCR-
ABL protein product that contextual conditioning of the cells of origin of the gene translocation further motivates the
dimensional expansion of the transformed myeloid cell clones to increasing proliferative rates, thus leading to blast
crisis as eventual loss of differentiating potential.peer-reviewe
The pathogenesis of tendinopathy. A molecular perspective
There are many publications that discuss the aetiology, diagnosis and treatment of the various forms of tendinopathy, but few are based on conclusive scientific evidence. The pathogenesis of tendinopathy is difficult to study because tendon biopsies are rarely obtained before a tendon has ruptured. There are interesting comparisons with animal tendinopathy, particularly in the equine athlete, although many animal models do not accurately reflect the human conditionâthe tendon lesions usually heal. However, the application of biochemical and molecular techniques to the study of both animal and human tendinopathy has led to a greater understanding of these common and disabling conditions. This article summarizes current knowledge of the pathogenesis of tendinopathy, with particular emphasis on the molecular pathology of the tendon matrix
Synergy of combined Doxycycline/TUDCA treatment in lowering Transthyretin deposition and associated biomarkers: studies in FAP mouse models
Familial Amyloidotic Polyneuropathy (FAP) is a disorder characterized by the extracellular deposition of fibrillar Transthyretin (TTR) amyloid, with a special involvement of the peripheral nerve. We had previously shown that doxycycline administered for 3 months at 40 mg/Kg/ml in the drinking water, was capable of removing TTR amyloid deposits present in stomachs of old TTR-V30M transgenic mice; the removal was accompanied by a decrease in extracellular matrix remodeling proteins that accompany fibrillar deposition, but not of non-fibrillar TTR deposition and/or markers associated with pre-fibrillar deposits. On the other hand, Tauroursodeoxycholic acid (TUDCA), a biliary acid, administrated to the same mouse model was shown to be effective at lowering deposited non-fibrillar TTR, as well as the levels of markers associated with pre-fibrillar TTR, but only at young ages
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