The Anti-Arthritic Efficacy of Khellin Loaded in Ascorbyl Decanoate Nanovesicles after an Intra-Articular Administration

Osteoarthritis is the most widespread joint-affecting disease. The management of persistent pain remains inadequate and demands new therapeutic strategies. In this study, we explored the pain relieving and protective properties of a single intra-articular (i.a.) injection of khellin loaded in nanovesicles (K-Ves) based on ascorbyl decanoate plus phosphatidylcholine in a rat model of osteoarthritis (OA) induced by monosodium iodoacetate (MIA) treatment. The developed nanovesicles (approximately 136 nm) had a narrow size distribution (PdI 0.26), a good recovery (about 80%) and a worthy encapsulation efficiency (about 70%) with a ζ-potential of about −40 mV. The stability of K-Ves was assessed in simulated synovial fluid. Seven days after the articular damage with MIA, both K-Ves and a suspension of khellin (K, 50 μL) were i.a. injected. K-Ves significantly counteracted MIA-induced hypersensitivity to mechanical noxious (paw pressure test) and non-noxious stimuli (von Frey test) and significantly reduced the postural unbalance related to spontaneous pain (incapacitance test) and the motor alterations (beam balance test) 7 and 14 days after the i.a. injection. K was partially active only on day 7 after the treatment. The histology emphasized the improvement of several morphological factors in MIA plus K-Ves-treated animals. In conclusion, K-Ves could be successfully used for the local treatment of osteoarthritis

Profile of Toll-Like Receptors on Peripheral Blood Cells in Relation to Acute Graft-versus-Host Disease after Allogeneic Stem Cell Transplantation

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Escinosomes: Safe and Successful Nanovesicles to Deliver Andrographolide by a Subcutaneous Route in a Mice Model of Oxaliplatin-Induced Neuropathy

Andrographolide (AG) is a natural diterpene lactone endowed with considerable therapeutic potential for treating numerous diseases, including neurological disorders, but its low aqueous solubility and scarce bioavailability limit its clinical use. To overcome this problem, AG was encapsulated in escinosomes, special nanovesicles made of escin (ESN), a natural saponin, and phosphatidylcholine. Escinosomes loaded with AG had an average size of 164.7 ± 13.30 nm, optimal polydispersity index (0.190 ± 0.0890) and high ζ-potential (−35.4 ± 0.451 mV), and significantly loaded the active substance—the encapsulation efficiency of AG was about 88%. Escinosomes allowed the prolonged release of AG over time, without burst effects—about 85% AG was released after 24 h. Morphological analysis by cryo-transmission electron microscopy showed nanovesicles with a spherical shape, unilamellar and oligolamellar structures, and dimensions in agreement with those measured by dynamic light scattering. In addition, stability studies were performed on AG-loaded escinosomes stored for one month at 4 °C. The pain-relieving efficacy of these nanovesicles was tested in a rat model of oxaliplatin-induced neuropathy. AG-loaded escinosomes, subcutaneously administered, effectively reduced the thermal allodynia characteristic of chemotherapy-induced neuropathy, enhancing and prolonging the effect of the natural compound. Overall, AG-loaded escinosomes were found to be excellent for loading AG, physically and chemically stable for one-month storage, and with controlled-release properties, making the formulation an ideal pharmacological approach for persistent pain treatment

Liver biopsy discloses a new apolipoprotein A-I hereditary amyloidosis in several unrelated Italian families

Background & Aims: Hereditary systemic amyloidoses are autosomal dominant, late-onset disorders caused by mutations in the genes for a group of plasma proteins including transthyretin, lysozyme, fibrinogen A\u3b1 chain, gelsolin, apolipoprotein A-I, and apolipoprotein A-II. We investigated both phenotypic and genotypic aspects of apolipoprotein A-I amyloidosis unexpectedly disclosed by liver biopsy in 13 unrelated individuals with asymptomatic, persistent elevation of alkaline phosphatase and \u3b3-glutamyltransferase levels. Methods: Immunoelectron microscopy was used for in situ characterization of amyloid deposits on liver biopsy specimens. Mutation analysis was performed by sequencing of the apolipoprotein A-I gene in all patients. Wild-type/variant apolipoprotein A-I ratio in plasma high-density lipoproteins was assessed by a peptide mass fingerprinting approach after purification of total apolipoprotein A-I of 2 patients. Results: Family history was informative in 5 cases. Renal failure developed in 9 cases. Hypogonadism due to testicular involvement was observed. Amyloid fibrils specifically stained with anti-apolipoprotein A-I antibody. A novel (Leu75Pro) heterozygous mutation in the apolipoprotein A-I gene was present in affected individuals but not in controls. Variant apolipoprotein A-I was about 10% of the total protein in high-density lipoproteins. Conclusions. The high number of individuals with apparently sporadic disease might reflect widespread occurrence of this mutation in the population and a milder phenotype of this variant compared with other apolipoprotein A-I amyloidogenic mutants. These findings suggest that specific staining for amyloid should be performed on liver biopsy of individuals with asymptomatic chronic elevation of alkaline phosphatase and \u3b3-glutamyltransferase levels