154 research outputs found
Factors influencing insulin secretion from encapsulated islets
Adequate regulation of glucose levels by a microencapsulated pancreatic islet graft requires a minute-to-minute regulation of blood glucose. To design such a transplant, it is mandatory to have sufficient insight in factors influencing the kinetics of insulin secretion by encapsulated islets. The present study investigates factors influencing the glucose-induced insulin response of encapsulated islets in vitro. We applied static incubations and did the following observations. (i) Small islets (90-120 gm) showed a similar instead of a lower glucose-induced insulin response, suggesting that inclusion of only small islets, which are associated with lower protrusion and failing rates, has no consequences for the functional performance of the graft. (ii) A capsule diameter of 800 mum showed identical rather than lower glucose-induced insulin responses as smaller, 500-mum capsules. (iii) Capsule membranes constructed with a conventional permeability interfered with diffusion of insulin, as illustrated by a lower response of islets in capsules with a 10-min poly-L-lysine (PLL) membrane than islets in capsules with a 5-min PLL membrane. (iv) Irrespective of the tested porosity, the capsules provided sufficient immunoprotection because the 10-min PLL membranes did block diffusion of the cytokines IL-1beta (17 kDa) and TNF-alpha (70 kDa) while the 5-min PLL membranes interfered with the diffusion of the vast majority of the cytokines. We conclude that capsules containing small islets (90-120 gm) and a membrane with a lower permeability than routinely applied is preferred in order to obtain a graft with adequate glucose-induced insulin responses
Fast-Response Calmodulin-Based Fluorescent Indicators Reveal Rapid Intracellular Calcium Dynamics
Faithful reporting of temporal patterns of intracellular Ca
2
+
dynamics requires the working range
of indicators to match the signals. Current genetically encoded calmodulin-based fluorescent
indicators are likely to distort fast Ca
2
+
signals by apparent saturation and integration due to their
limiting fluorescence rise and decay kinetics. A series of probes was engineered with a range of
Ca
2
+
affinities and accelerated kinetics by weakening the Ca
2
+
-calmodulin-peptide interactions. At
37
°C, the GCaMP3-derived probe termed GCaMP3
fast
is 40-fold faster than GCaMP3 with Ca
2
+
decay
and rise times,
t
1/2
, of 3.3
ms and 0.9
ms, respectively, making it the fastest to-date. GCaMP3
fast
revealed discreet transients with significantly faster Ca
2
+
dynamics in neonatal cardiac myocytes
than GCaMP6f. With 5-fold increased two-photon fluorescence cross-section for Ca
2
+
at 940
nm,
GCaMP3
fast
is suitable for deep tissue studies. The green fluorescent protein serves as a reporter
providing important novel insights into the kinetic mechanism of target recognition by calmodulin.
Our strategy to match the probe to the signal by tuning the affinity and hence the Ca
2
+
kinetics of
the indicator is applicable to the emerging new generations of calmodulin-based probe
Potential Role of Decoy B7-H4 in the Pathogenesis of Rheumatoid Arthritis: A Mouse Model Informed by Clinical Data
Finding an association between soluble B7-H4 and rheumatoid arthritis severity, Lieping Chen and colleagues use a mouse model to show that the soluble form blocks the inhibitory function of cell-surface B7-H4
Maternal TLR4 and NOD2 Gene Variants, Pro-Inflammatory Phenotype and Susceptibility to Early-Onset Preeclampsia and HELLP Syndrome
Background: Altered maternal inflammatory responses play a role in the development of preeclampsia and the hemolysis, elevated liver enzymes and low platelets (HELLP) syndrome. We examined whether allelic variants of the innate immune receptors toli-like receptor 4 (TLR4) and nucleotide-binding oligomerization domain (NOD2), that impair the inflammatory response to endotexin are related to preeclampsia and HELLP syndrome. Methods and Finding: We determined five common mutations in TLR4 (D299G and T399I and NOD2 (R70W, G908R and L1007fs) in 340 primiparous women with a histo
Analysis of the effects of sex hormone background on the rat choroid plexus transcriptome by cDNA microarrays
The choroid plexus (CP) are highly vascularized branched structures that protrude into the ventricles of the brain, and form a unique interface between the blood and the cerebrospinal fluid (CSF), the blood-CSF barrier, that are the main site of production and secretion of CSF. Sex hormones are widely recognized as neuroprotective agents against several neurodegenerative diseases, and the presence of sex hormones cognate receptors suggest that it may be a target for these hormones. In an effort to provide further insight into the neuroprotective mechanisms triggered by sex hormones we analyzed gene expression differences in the CP of female and male rats subjected to gonadectomy, using microarray technology. In gonadectomized female and male animals, 3045 genes were differentially expressed by 1.5-fold change, compared to sham controls. Analysis of the CP transcriptome showed that the top-five pathways significantly regulated by the sex hormone background are olfactory transduction, taste transduction, metabolism, steroid hormone biosynthesis and circadian rhythm pathways. These results represent the first overview of global expression changes in CP of female and male rats induced by gonadectomy and suggest that sex hormones are implicated in pathways with central roles in CP functions and CSF homeostasis
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