Comparison of the activity of two elastin-like recombinant carriers fused to the antimicrobial peptide indolicidin.

Recombinant fusion biotechnology is a powerful tool for producing antimicrobial peptides (AMPs), which can contribute to limiting the number of potentially infectious microorganisms. AMPs are often expressed in fusion with a carrier protein, a strategy that prevents toxic effects on host bacterial cells and protects them from proteolytic degradation. Among the many fusion carriers available, elastin-like polypeptides offer several valuable advantages related to their unique thermo-responsive behavior.

Correction: Ruchaya et al. Transplantation of Skeletal Muscle-Derived Sca-1/PW1/Pax7 Interstitial Cells (PICs) Improves Cardiac Function and Attenuates Remodeling in Mice Subjected to Myocardial Infarction. , , 4050.

In the original publication [...

Transplantation of Skeletal Muscle-Derived Sca-1/PW1/Pax7 Interstitial Cells (PICs) Improves Cardiac Function and Attenuates Remodeling in Mice Subjected to Myocardial Infarction.

We have previously shown that skeletal muscle-derived Sca-1/PW1/Pax7 interstitial cells (PICs) are multi-potent and enhance endogenous repair and regeneration. Here, we investigated the regenerative potential of PICs following intramyocardial transplantation in mice subjected to an acute myocardial infarction (MI). MI was induced through the ligation of the left anterior descending coronary artery in 8-week old male C57BL/6 mice.

Alterations in the Oral Microbiome Associated With Diabetes, Overweight, and Dietary Components.

The Mediterranean diet (MedDiet) represents the traditional food consumption patterns of people living in countries bordering the Mediterranean Sea and is associated with a reduced incidence of obesity and type-2 diabetes mellitus (T2DM). The objective of this study was to examine differences in the composition of the oral microbiome in older adults with T2DM and/or high body mass index (BMI) and whether the microbiome was influenced by elements of a MedDiet. Using a nested case-control design individuals affected by T2DM were selected from the Seniors-ENRICA-2 cohort concurrently with non-diabetic controls.

A protocol for extracting immunolabeled murine cardiomyocytes of high-quality RNA by laser capture microdissection.

We developed a highly efficient, ultrashort immunohistochemistry-laser capture microdissection (IHC-LMD) protocol, which allows microdissection of up to 250 single cardiomyocytes. Before LMD, murine hearts are excised, snap-frozen, and cryosectioned. RNA isolated from LMD material is of high RNA quality, making it usable for gene expression analysis and RNA sequencing.

Inhibition of Aurora Kinase B activity disrupts development and differentiation of salivary glands.

Little is known about the key molecules that regulate cell division during organogenesis. Here we determine the role of the cell cycle promoter aurora kinase B (AURKB) during development, using embryonic salivary glands (E-SGs) as a model. AURKB is a serine/threonine kinase that regulates key events in mitosis, which makes it an attractive target for tailored anticancer therapy.

Salivary glands require Aurora Kinase B for regeneration after transient innate immune-mediated injury.

Severe, irreversible salivary gland disease and oral dryness is experienced by sufferers of Sjögren's syndrome and those treated with irradiation for head and neck cancer. Therefore, major efforts have been made in the last decade to unravel key molecular signals that can drive salivary gland (SG) regeneration and functional restoration. However, the earliest molecular determinants that accompany SG regeneration remain incompletely defined.

Dysregulation of NF-kB in glandular epithelial cells results in Sjögren's-like features.

The autoimmune disease primary Sjögren's syndrome (pSS) is characterized by hypofunction of the salivary glands (SGs), the cause of which is not correlated to lymphocytic SG infiltration, as prevailing dogma often states. We knocked out the NF-κB proinflammatory pathway inhibitor A20 in keratin14+ epithelial cells, to investigate if immune activated epithelial cells are capable of initiating pSS SG hallmarks. We show that immune activated epithelial cells can cause T cell dominated leukocytic infiltration and immune foci development of the SGs, reflecting the early clinical picture.

Inducible nitric oxide synthase-mediated injury in a mouse model of acute salivary gland dysfunction.

Aim: Inducible nitric oxide synthase (iNOS) is a key regulator of the innate immune system. The aim of the current study was to explore whether innate immune-mediated iNOS and reactive nitrogen species acutely perturb acinar cell physiology and calcium homeostasis of exocrine salivary tissues.

Methods: Innate immunity in the submandibular gland of C57BL/6 mice was locally activated via intraductal retrograde infusion of polyinosinic:polycytidylic acid (poly (I:C).

Caspases are key regulators of inflammatory and innate immune responses mediated by TLR3 in vivo.

Understanding the key regulators which impact the innate immune response during initial phases of tissue injury, can advance the use of therapeutic approaches which aim at attenuating inflammation and organ damage. Recognition of microbial components by TLRs, initiates the transcription of innate immune signal pathways, that induce the expression of key inflammatory mediators: cytokines, chemokines and adhesion molecules. Beside regulating apoptotic cell death, recent studies have revealed distinct roles for caspases in the optimal production of inflammatory cytokines and host defense against injurious infections.

Epithelial disruptions, but not immune cell invasion, induced secretory dysfunction following innate immune activation in a novel model of acute salivary gland injury.

Background: Salivary gland (SG) injurious agents are all translated into loss of salivation (xerostomia). An association has been established between activation of innate immunity and SG injury and dysfunction. However, it remains unclear how the secretory epithelia respond by halting saliva production.

Measurement of intracellular calcium of submandibular glands using a high throughput plate reader.

Calcium ions (Ca) impact nearly every aspect of cellular life and intracellular calcium [Ca] is a critical factor in the regulation of a plethora of physiological functions, including: muscle contraction, saliva secretion, metabolism, gene expression, cell survival and death. By measuring the changes of [Ca] levels, critical physiologic functions can be characterized and aberrant pathologic conditions or drug responses can be efficiently monitored. We developed a protocol for assessment of Ca signaling in the acinar units of submandibular glands isolated from C57BL/6 mice, using benchtop, multi-mode, high throughput plate reader (FlexStation 3).