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Intensified high yield production of GMMA based vaccines for high burden neglected disease

Vaccines are among the most important public health interventions currently available. The global demand for vaccines is growing due to global population growth, ongoing global immunization campaigns and the increase of antibiotic-resistant bacteria. Vaccines are of high importance in Low- and Middle-Income Countries (LMIC) where millions of deaths occur annually due to vaccines-preventable diseases. Global coverage would need at least 200 million doses annually of a two-dose vaccine to cover the at-risk birth cohort, and considerably more for catch up vaccination during a roll out phase. Especially for vaccines against diseases in LMIC, there is a major added constraint: the vaccine production cost per unit and manufacturing facilities investments must be minimized to ensure the vaccines will be both viable and sustainable. For diseases caused by Gram-negative bacteria, the vaccine platform based on the GMMA technology is promising. GMMA are highly immunogenic outer membrane exosomes produced from genetically engineered bacteria modified for high yield hyper-blebbing that can be purified with minimal downstream processing. Simple robust scalable processes make GMMA ideal for cost-conscious vaccines. Please click Download on the upper right corner to see the full abstract

Effect of spray application of Lactobacillus plantarum on in vivo performance, caecal fermentations and haematological traits of suckling rabbits

Two days before kindling, 228 New Zealand White rabbit does were homogeneously divided into two groups (114 does per group) and fed the same diet. After delivery, the litters were equalized to 8 pups. From 1 to 35 days of age (weaning), the control group (CONT) did not receive any treatment while in the experimental group (LAC) the nests were sprayed with a commercial product containing lyophilized Lactobacillus plantarum dissolved in water (12 g/L). L. plantarum was sprayed on the litters (5 mL per rabbit) once a day during seven consecutive days after delivery. After one week of rest, the treatment was repeated for another week according to the same experimental protocol. Mortality rate, recorded on all the litters (912 rabbits per group) was significantly lower in the LAC group (9.9 vs 17.2%; P<0.05). There were no significant differences in in vivo performance of the 24 litters per group, and rabbits of both groups reached a similar weight at weaning (938 vs 932 g for LAC and CONT groups, respectively). Rabbits from the LAC group showed fermentative activity of caecal microflora (total volatile fatty acids 24.8 vs 14.5 mmol/L; P<0.01) and higher percentage of lymphocytes (73.7 vs 63.9% of total white blood cells; P<0.05). Among the microflora population of rabbit caecal content from the LAC group, it was possible to identify L. plantarum (1.25x106 CFU/g). It might be supposed that the changes in caecal microflora can affect our results and improve the sanitary status of Lactobacillus-sprayed rabbits in the period 1-35 days of age

Formyl Peptide Receptor (FPR)1 Modulation by Resveratrol in an LPS-Induced Neuroinflammatory Animal Model

Among therapeutic approaches that have been investigated, targeting of receptors implicated in managing neuroinflammation has been described. One such family of receptors comprises the formyl peptide receptors (FPRs) whose ligands could play a role in host defense. The murine FPR gene family includes at least six members while in humans there are only three. The two most important members are the Fpr1 and Fpr2. Fpr1encodes murine FPR1, which is considered the murine orthologue of human FPR. Resveratrol, a non-flavonoid polyphenol rich in red wine and grapes, apart from its beneficial health effects and anti-inflammatory properties, has been reported to reduce neuroinflammation in different neurodegenerative disease models. Resveratrol anti-inflammatory responses involve the activation of the protein deacetylase sirtuin 1 (SIRT1) gene. In this work we have investigated in an LPS-based murine model of neuroinflammation the role of FPR1, examining not only if this receptor undergoes a reduction of its expression during neuroinflammation, but also whether treatment with resveratrol was able to modulate its expression leading to an amelioration of neuroinflammatory picture in a murine model of neuroinflammation. Results of this work showed that FPR1 together with SIRT1 resulted upregulated by resveratrol treatment and that this increase is associated with an amelioration of the neuroinflammatory picture, as demonstrated by the induction of IL-10 and IL1-RA expression and the downregulation of proinflammatory mediators, such as TNF-α and IL-1β. The expression and the modulation of FPR1 by resveratrol may be evaluated in order to propose a novel anti-inflammatory and pro-resolving therapeutic approach for the reduction of the detrimental effects associated with neuro-inflammation based neurodegenerative diseases and also as a promising strategy to promote human health by a diet rich in antioxidative bioactive compounds

Avaliação in vitro da atividade antileishmania de complexos de cobre (I)

In the research for the development of new drugs for the therapy of American tegumentary leishmaniasis, copper has been studied for its antileishmania activity. This study aims to report the activity of three copper(I) complexes on parasites of the species L. amazonensis and L. guyanensis. The metal complexes were tested according to in vitro antileishmanial assays, against promastigote and amastigote forms of the most prevalent species in the state of Amazonas, Brazil. Cytotoxicity of the complexes was evaluated in murine macrophage-like cell line (MJ774). The results of the in vitro assays indicated that, among the copper complexes tested, the homoleptic phosphine complex [Cu(thp)4][PF6](thp=tris-hydroxymethylphosphine) presented promising activity against the evolutionary forms of L. amazonensis, and obtained a IC50 of&nbsp; 26.45 and 24.61 µM in a period of 48 and 72 h, respectively. The results for copper complex at concentration 160 µM in amastigote forms showed a decrease in the infection index (32% of infected cells) and, in the cytotoxicity assay with MJ774, 52.43% of cell viability was observed. The results showed that the complex [Cu(thp)4][PF6] presented significant biological activity, indicating a need for future in vivo studies.Na busca do desenvolvimento de novos fármacos para a terapia da leishmaniose tegumentar americana, o cobre tem sido estudado quanto a sua atividade antileishmania. Esse estudo tem como objetivo relatar a atividade de três complexos de cobre (I) sobre parasitas das espécies L. amazonensis e L. guyanensis. Os complexos metálicos foram testados por meio de ensaios antileishmania in vitro contra as formas promastigota e amastigota das espécies mais prevalentes no estado do Amazonas, Brasil. A citotoxicidade dos complexos foi avaliada em linhagem de células semelhantes a macrófagos murinos (MJ774). Os resultados dos ensaios in vitro indicaram que, entre os complexos de cobre testados, o complexo homoléptico de fosfina [Cu(thp)4][PF6](thp=tris-hidroximetilfosfina) apresentou atividade promissora contra as formas evolutivas de L. amazonensis, e obtiveram IC50 de 26,45 e 24,61 µM em um período de 48 e 72 h, respectivamente. Os resultados para o complexo de cobre na concentração de 160 µM nas formas amastigotas reportaram diminuição no índice de infecção (32% das células infectadas) e, no ensaio de citotoxicidade com MJ774, observou-se 52,43% de viabilidade celular. Os resultados evidenciaram que o complexo [Cu(thp)4][PF6] apresentou atividade biológica significativa, indicando a necessidade de futuros estudos in vivo

Inflammatory Response Modulation by Vitamin C in an MPTP Mouse Model of Parkinson's Disease

Vitamin C (Vit C) is anutrient present in many foods, particularly citrus fruits, green vegetables, tomatoes, and potatoes. Vit C is studied for its applications in the prevention and management of different pathologies, including neurodegenerative diseases. Neuroinflammation is a defense mechanism activated by a stimulus or an insult that is aimed at the preservation of the brain by promoting tissue repair and removing cellular debris; however, persistent inflammatory responses are detrimental and may lead to the pathogenesis and progression of neurodegenerative diseases like Parkinson's disease (PD) and Alzheimer's disease. PD is one of the most common chronic progressive neurodegenerative disorders, and oxidative stress is one of the most important factors involved in its pathogenesis and progression.Due to this, research on antioxidant and anti-inflammatory compounds is an important target for counteracting neurodegenerative diseases, including PD. In the central nervous system, the presence of Vit C in the brain is higher than in other body districts, but why and how this occurs is still unknown. In this research, Vit C, with its anti-inflammatory and anti-oxidative properties, is studied to better understand its contribution to brain protection; in particular, we have investigated the neuroprotective effects of Vit C in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced animal model of PD and its role in the modulation of neuroinflammation. First, we observed that Vit C significantly decreased the MPTP-induced loss of tyrosine hydroxylase (TH)-positive dopaminergic neuronal cells in the substantia nigra, as well as microglial cell activation and astrogliosis. Furthermore, gait and spontaneous locomotor activity, evaluated by an automated treadmill and the Open Field test, respectively, were partially ameliorated by Vit C treatment in MPTP-intoxicated animals. In relation to neuroinflammation, results show that Vit C reduced the protein and mRNA expression of inflammatory cytokines such as IL-6, TLR4, TNF-α, iNOS, and CD40, while anti-inflammatory proteins such as IL-10, CD163, TGF-β, and IL-4 increased. Interestingly, we show for the first time that Vit C reduces neuroinflammation by modulating microglial polarization and astrocyte activation. Moreover, Vit C was able to reduce NLRP3 activation, which is linked to the pathogenesis of many inflammatory diseases, including neuroinflammatory disorders. In conclusion, our study provides evidence that Vit C may represent a new promising dietary supplement for the prevention and alleviation of the inflammatory cascade of PD, thus contributing to neuroprotection

Lentiviral vector-mediated gene transfer in T cells from Wiskott-Aldrich syndrome patients leads to functional correction

Wiskott–Aldrich syndrome (WAS) is an X-linked primary immunodeficiency with a median survival below the age of 20 due to infections, severe hemorrhage, and lymphomas. Transplantation of hematopoietic stem cells from HLA-identical sibling donors is a resolutive treatment, but is available for a minority of patients. Transplantation of genetically corrected autologous hematopoietic stem cells or T cells could represent an alternative treatment applicable to all patients. We investigated whether WAS gene transfer with MMLV-based oncoretroviral and HIV-based lentiviral vectors could restore normal functions of patients' T cells. T cells transduced either with lentiviral vectors expressing the WAS protein (WASP) from the ubiquitous PGK promoter or the tissue-specific WASP promoter or with an oncoretroviral vector expressing WASP from the LTR, reached normal levels of WASP with correction of functional defects, including proliferation, IL-2 production, and lipid raft upregulation. Lentiviral vectors transduced T cells from WAS patients at higher rates, compared to oncoretroviral vectors, and efficiently transduced both activated and naive WAS T cells. Furthermore, a selective growth advantage of T cells corrected with the lentiviral vectors was demonstrated. The observation that lentiviral vector-mediated gene transfer results in correction of T cell defects in vitro supports their application for gene therapy in WAS patients

Titanium Functionalized with Polylysine Homopolymers: In Vitro Enhancement of Cells Growth

In oral implantology, the success and persistence of dental implants over time are guaranteed by the bone formation around the implant fixture and by the integrity of the peri-implant mucosa seal, which adheres to the abutment and becomes a barrier that hinders bacterial penetration and colonization close to the outer parts of the implant. Research is constantly engaged in looking for substances to coat the titanium surface that guarantees the formation and persistence of the peri-implant bone, as well as the integrity of the mucous perimeter surrounding the implant crown. The present study aimed to evaluate in vitro the effects of a titanium surface coated with polylysine homopolymers on the cell growth of dental pulp stem cells and keratinocytes to establish the potential clinical application. The results reported an increase in cell growth for both cellular types cultured with polylysine-coated titanium compared to cultures without titanium and those without coating. These preliminary data suggest the usefulness of polylysine coating not only for enhancing osteoinduction but also to speed the post-surgery mucosal healings, guarantee appropriate peri-implant epithelial seals, and protect the fixture against bacterial penetration, which is responsible for compromising the implant survival

Analytical development to support manufacturing of a sustainable vaccine against Invasive Nontyphoidal Salmonellosis

GVGH is developing a candidate trivalent Salmonella vaccine to fight invasive nontyphoidal Salmonellosis (iNTS) and typhoid fever, especially aimed for sub-Saharan Africa to impact disease burden and to reduce anti-microbial resistance spread. This trivalent vaccine may be the only viable option for a sustainable iNTS vaccine in sub-Saharan Africa over the separate administration of Typhoid Conjugate Vaccines (TCV) and a vaccine against iNTS. GVGH generated the iNTS-TCV formulation by combining the GMMA technology for the iNTS components, S. Typhimurium (STm) and S. Enteritidis (SEn) GMMA adsorbed on Alhydrogel, and the Vi-CRM197 glycoconjugate, originally developed by GVGH and recently WHO prequalified as TCV TYPHIBEV by Biological E Ltd (Hyderabad, India). A set of analytical methods to support the vaccine lot release and characterization have been developed by GVGH. In particular, to quantify the key active ingredients of iNTS components a competitive ELISA-based method (FAcE, Formulated Alhydrogel competitive ELISA assay) has been setup and characterized in terms of specificity, accuracy and precision. Vi component is instead characterized by means of HPAEC-PAD method, able to specifically identify and quantify the total polysaccharide in the final drug product. With regard to safety assessment, a Monocyte Activation Test (MAT) has been developed as to monitor the intrinsic pyrogenicity of GMMA-based vaccines and applied as surveillance test for the Phase 1 clinical lot, with the plan to set release criteria based on clinical experience. In vivo potency assay has been set to characterize the immunogenicity of vaccine lots in comparison to freshly formulated material at the time of release and during real-time stability. A significant antibody response to each of the active ingredients of the trivalent vaccine is raised in mice and assessed by Parallel Line Assay. Overall, the applied analytical panel and the results support the development of an iNTS-TCV vaccine as a viable option for a sustainable iNTS vaccine in sub-Saharan Africa