Subclinical central inflammation is risk for RIS and CIS conversion to MS.

BACKGROUND: Subtle diffuse intrathecal inflammation is undetectable by conventional neuroimaging, and could influence multiple sclerosis (MS) disease course. OBJECTIVE: To explore the role of subclinical persisting intrathecal inflammation in radiologically isolated syndrome (RIS) or clinically isolated syndrome (CIS) conversion to MS, and in early MS disease reactivation. METHODS: One-hundred ninety-three subjects with RIS, CIS, relapsing-remitting (RR), or primary progressive (PP) MS were included, along with 76 matched controls. Cerebrospinal fluid (CSF) levels of interleukin-8 (IL-8), a major proinflammatory cytokine, were measured as a biomarker of intrathecal inflammation. Patients were followed up for 2 years. Clinical and imaging measures of disease progression were recorded. RESULTS: High central contents of IL-8 were associated to clinical progression in subjects with RIS, and to the risk of conversion to MS in subjects with CIS. Asymptomatic intrathecal inflammation placed subjects at risk for MS conversion, even regardless lesion load. CSF IL-8 levels were higher in RR MS with high disease activity. Higher number of relapses in the first two years since diagnosis and shorter first inter-attack intervals were observed in patients with high levels of IL-8. CONCLUSION: IL-8 might provide utility in determining the presence of active intrathecal inflammation, and could be important in diagnostically undefined cases.

The autonomic balance predicts cardiac responses after the first dose of fingolimod.

BACKGROUND: Predictive markers of cardiac side effects would be helpful for the stratification and individualized monitoring of multiple sclerosis (MS) patients prescribed with fingolimod. OBJECTIVE: To test whether the autonomic balance predicts a cardiac response after the first dose of fingolimod. METHODS: A total of 55 consecutive relapsing-remitting MS (RRMS) patients underwent 'head-up tilt', Valsalva maneuver, deep breathing and handgrip tests before their first dose of fingolimod. The normalized unit of the high frequency (HF) component (HF normalized units; HFnu), reflecting mostly vagal activity; and the low frequency (LF) component (LF normalized units; LFnu) reflecting mostly sympathetic activity, were considered for the analysis of heart rate (HR) variability. The patients' HR and electrocardiographic parameters ((the interval between P wave and ventricular depolarization (PR); the interval between Q and T waves (QT)) were recorded during 6-hour post-dose monitoring. RESULTS: We found significant correlations between measures of parasympathetic function and fingolimod-induced bradycardia. Subjects with higher Valsalva ratio and HR variation during deep breathing had, in fact, nadir HR ≤ 50 beats/minute (bpm) after the first fingolimod dose. Conversely, significant negative correlations were found between measures of sympathetic function and fingolimod-induced PR interval increase. Subjects with lower LFnu at rest and less increase of blood pressure on the handgrip test showed a PR interval increase > 20 ms after fingolimod. CONCLUSIONS: Assessing autonomic control of cardiovascular functions can be useful to predict cardiac effects after the first fingolimod dose.

Interleukin-8 is associated with acute and persistent dysfunction after optic neuritis.

BACKGROUND: Acute optic neuritis is often in association with multiple sclerosis (MS). Proinflammatory cytokines trigger neuronal damage in neuroinflammatory disorders but their role in optic neuritis is poorly investigated. OBJECTIVE: The objective of this work is to investigate the associations of intrathecal contents of proinflammatory cytokines with transient and persistent dysfunctions after optic neuritis. METHODS: In 50 MS patients followed for up to six months, cerebrospinal fluid (CSF) levels of IL-1ß, TNF and IL-8 were determined, along with clinical, neurophysiological and morphological measures of optic neuritis severity. RESULTS: Visual impairment, measured by high- and low-contrast visual acuity, and delayed visual-evoked potential (VEP) latencies were significantly correlated to IL-8 levels during optic neuritis. IL-8 at the time of optic neuritis was also associated with persistent demyelination and final axonal loss, inferred by VEP and optical coherence tomography measures, respectively. Contents of IL-8 were correlated to functional visual outcomes, being higher among patients with incomplete recovery. Multivariate analysis confirmed that IL-8 significantly predicted final visual acuity, at equal values of demographics and baseline visual scores. CONCLUSION: Our study points to IL-8 as the main inflammatory cytokine associated with demyelination and secondary neurodegeneration in the optic nerve after optic neuritis.

Effects of simulated microgravity on the morphology and function of neonatal porcine cell clusters cultured with and without Sertoli cells.

Human islet allografts are well known to induce full and sustained remission of hyperglycemia, with complete normalization of key metabolic parameters. Nevertheless, acquiring human islets, even from cadaveric human donor pancreases, remains a significant impediment to successful transplantation therapy for diabetes. To overcome this difficulty, neonatal porcine cell clusters (NPCCs) have been considered for human islet substitutes because they are easily obtained by collagenase digestion of the neonatal piglet pancreas. Currently, the major hurdle in using NPCCs for xenograft is the delay (time lag) in achieving the posttransplant normalization of blood glucose levels in animal diabetic recipients. The present work is the first attempt to evaluate whether incubation of NPCCs in simulated microgravity, in the presence or absence of Sertoli cells (SC), may reduce the maturation time lag of beta-cells by differentiation acceleration in vitro, thereby expediting production, viability, and acquisition of functional competence of pretransplantation beta-cell-enriched islets. Following a 3-day incubation period, NPCCs maintained in conventional culture, NPCCs incubated in simulated microgravity in the HARV biochamber, and NPCCs plus co-incubated SC in simulated microgravity were examined for viability, morphology, and insulin secretion. Results show that NPCCs grown alone in the HARV biochamber are superior in quality, both in terms of viability and functional competence, when compared to other culture pretreatment protocols. This finding strongly suggests that NPCC pretreatment in simulated microgravity may enhance the transplantation success of NPCCs in the diabetic recipient.

Short-term stimulation studies on neonatal pig pancreatic duct-derived cell monolayers.

Short-term stimulation with insulinotropic factors may induce morphologic and functional changes in primary ductal cell cultures as a potential source of stem cells. We sought to assess the capacity of hepatocyte growth factor (HGF) to induce expression and maturation of proteins--PDX-1 and GLUT-2--and the subsequent beta-cell secretory profiles. HGF, which is involved in pancreatic development, may induce islet beta-cell neogenesis. Primary ductal cell monolayers were cultured in Click's + FBS 10% at 37 degrees C until tissue confluence. The medium was enriched with HGF (10 ng/mL for different periods); controls were treated for similar times with normal culture medium. At the end of the study, three-dimensional islet-like cell aggregates were observed in both conditions. In all conditions immunostaining studies showed positivity for the major endocrine-phenotype cell markers: insulin, PDX-1, glucokinase, and GLUT-2. Furthermore, treatment with HGF for short periods induced the expression of a functionally active, phosphorylated isoform of PDX-1. Finally, we observed that under basal conditions the cells initially and progressively released proinsulin throughout 5 days in all settings. Thereafter proinsulin was gradually replaced by insulin in the culture medium, reflecting a maturation progress. This pattern of insulin maturation and release was more evident when the cells were continuously stimulated with HGF for 12 days. The employed stimuli seemed to differentiate the original ductal cell layers toward endocrine cell phenotypes that synthesize and release proinsulin and subsequently insulin. HGF seems to provide a more efficient differentiation.

Transdifferentiation molecular pathways of neonatal pig pancreatic duct cells into endocrine cell phenotypes.

Restrictions in availability of cadaveric human donor pancreata have intensified the search for alternate sources of pancreatic endocrine tissue. We have undertaken to assess whether nonendocrine pancreatic tissue, with special regard to ducts, including epithelial cells, and retrieved from neonatal pig pancreata that are used for islet isolation, may under special in vitro culture conditions generate endocrine cell phenotypes. Special care was taken to identify the time-related appearance of molecular and biochemical markers associated with beta-cell specificity, in terms of glucose-sensing apparatus and insulin secretion. For this purpose, established ductal origin monolayer cell cultures were incubated with a battery of mono- or polyvalent growth factors. Morphological, immunocytochemical, molecular, and functional assays indicated that under special culture conditions ductal origin cells acquired an endocrine identity, based upon expression of key gene transcripts that govern the stimulus-coupled insulin secretory activity. Among factors eliciting transdifferentiation of ductal epithelial into endocrine cells, Sertoli cell (SC)-conditioned medium seemed to be the most powerful inducer of this process. In fact, the resulting cultures not only expressed beta-cell-oriented metabolic markers but also were associated with insulin and C-peptide output at equimolar ratios. This finding indicates that SC coincubation, more than other conditions, caused originally ductal cell cultures to gradually differentiate and mature into beta-cell-like elements. In vivo studies with this early cell differentiation product will test whether our approach may be suitable for correction of hyperglycemia in diabetic animal models.

Optimized parameters for microencapsulation of pancreatic islet cells: an in vitro study clueing on islet graft immunoprotection in type 1 diabetes mellitus.

Alginate (AG)-based microcapsules may provide a selective permeable and biocompatible physical barrier to prevent islet graft (TX)-directed immune destruction. However, extent of the achieved immunoprotection will continue to be variable and unpredictable until the role of the individual mechanisms involved with TX-related inflammatory cell and immune reactivity are clarified. Macrophages (M) are believed to play a pivotal role in controlling the host/TX interaction and its consequences. We then have studied the effects of isolated rat M and their secretory products on allogeneic islets enveloped in variably sized and configured microcapsules, within in vitro mixed islet-M cocultures. In particular, we aimed to determine the sequence of immune or not immune specific cascade of early events that derive from such on interaction. One of the specific aims was to assess whether the membrane's physical intactness and conversely its even minimal rupture, along with the microcapsules' size (i.e., large vs. small) would significantly impact M reactivity and, thereby, the encapsulated islet viability and function. Special care was taken to evaluate extent of the elicited reactivity by meticulously monitoring cytokine, N2 derivative, and other proinflammatory protein curve profiles during the early M activation process. The study has preliminarily shown that, for equally formulated microcapsules, the capsular size and membrane's morphologic thoroughness are key to prevent M reactivity and possibly avoid the intracapsular islet cell damage. While elucidation of pathways involved with the encapsulated islet TX-directed host's responsiveness actually is in progress, it has clearly emerged that microcapsules should comply with well-defined physical properties and formulation specifications in order to obviate the primum movens of the inflammatory reaction process.

Neonatal pig pancreatic duct-derived insulin-producing cells: preliminary in vitro studies.

Neonatal pig pancreata could represent an ideal tissue resource for donor islets for transplantation trials. Because functional islet beta-cells could derive from precursors situated in the ductal system, and neonatal animals are better suitable than adults for recovering such elements, we have examined whether isolated neonatal pancreatic ducts (NPD) could form insulin-producing cells. NPD, retrieved from the pancreas by collagenase digestion, were cultured for 2 weeks. A compact tissue monolayer detached by trypsin was re-incubated to form upon culture. The primary tissue monolayer was plated, yielding secondary monolayers that were supplemented in culture with the following factors: insulin transferrin selenium, niacinamide, keratinocyte growth factor, and high glucose, which promoted formation of islet cell-like clusters during 30 days of culture. Upon reaching 50 to 100 microm in diameter, the cell clusters were subjected to morphologic examination (assessment of viability by staining with ethidium bromide+fluorescein diacetate [EB+FD]; staining for insulin with diphenylthiocarbazone [DTZ]); DNA assay; insulin radioimmunoassay both in the basal state and after in vitro static incubation with high glucose; immunolabeling with anti-insulin fluorescent antibodies. Of the cell clusters, 80% were composed of viable cells that faintly showed DTZ staining. Basal insulin was 16.7 microU/mL, but no insulin response was elicited by stimulation with high glucose. Acid-ethanol extraction showed high insulin levels in the clusters. Finally, immunofluorescence for insulin was positive, indicating the presence of beta-cell-like committed elements. In conclusion, NPD may differentiate into insulin-producing cells, which are at a very early stage when the glucose-sensing apparatus is still immature.