Development of an immunoassay for the simultaneous detection of GADA and ZnT8A in autoimmune diabetes using a ZnT8/GAD65 chimeric molecule.

Introduction: The combined presence of autoantibodies to the 65 kDa isoform of glutamic acid decarboxylase (GADA) and to the islet-specific cation efflux transporter ZnT8 (ZnT8A) in serum is the best predictive sign of the loss of immune tolerance and the clinical manifestation of autoimmune diabetes mellitus (DM). The screening of GADA and ZnT8A could help to reach to a correct diagnosis and to start an early and adequate treatment. The aim of the study was to develop an immunoassay for the simultaneous detection of these autoantibodies using a chimera molecule that includes the immunodominant regions of ZnT8 and GAD65, expressed by baculovirus-insect cells system. Materials and Methods: ZnT8/GAD65 was expressed using the Bac to Bac™ baculovirus expression system. The recombinant chimera was purified by an His6-tag and identified by SDS-PAGE and western blot analysis, and by an indirect ELISA using specific antibodies against ZnT8 and GAD65. A fraction of ZnT8/GAD65 was biotinylated. A bridge ELISA (b-ELISA) was developed using ZnT8/GAD65 immobilized in polystyrene microplates, human sera samples from healthy individuals (n = 51) and diabetic patients (n = 49) were then incubated, and afterwards ZnT8/GAD65-biotin was added. Immune complexes were revealed with Streptavidin-Horseradish Peroxidase. Results were calculated as specific absorbance and expressed as standard deviation scores: SDs. Results: ZnT8/GAD65 was efficiently produced, yielding 30 mg/L culture medium, 80% pure. This recombinant chimera retains the immunoreactive conformation of the epitopes that are recognized by their specific antibodies, so it was used for the development of a high sensitivity (75.51%) and specificity (98.04%) b-ELISA for the detection of ZnT8A and/or GADA, in a one-step screening assay. The ROC curves demonstrated that this method had high accuracy to distinguish between samples from healthy individuals and diabetic patients (AUC = 0.9488); the cut-off value was stablished at 2 SDs. Conclusions: This immunoassay is useful either to confirm autoimmune diabetes or for detection in routine screening of individuals at risk of autoimmune DM. As DM is a slow progress disease, remaining asymptomatic for a long preclinical period, serological testing is of importance to establish a preventive treatment.

Clear aligners combined with orthognathic surgery: a case series.

The goal of this study was to describe a series of orthognathic surgery cases in which a clear aligner system was used for orthodontic treatment. A total of 16 cases were undertaken. A majority of the patients were female (68.75%), and the mean age of the patients was 26.78 years (SD 10.85 years). The most frequent malocclusion was Class II (56.25%), mainly caused by mandibular retrognathism (80.00%). Most of the patients were treated with single-jaw surgeries (56.15%). Orthodontic buttons and elastics were used for maxillomandibular fixation in 81.25% of the patients. The mean (SD) treatment period was 19.00 (1.11) months, and the postsurgical follow-up varied from 6 months to 10 years. Good results were achieved with orthognathic surgery and the adjunctive use of clear aligners, and no damage was noted during the orthosurgical treatment. Since clear aligners provide an esthetic, removable appliance and may be more acceptable to patients than conventional orthodontic appliances, the use of clear aligners in orthognathic surgery is a promising alternative to traditional orthodontics.

Improved Expression of SARS-CoV-2 Spike RBD Using the Insect Cell-Baculovirus System.

Insect cell-baculovirus expression vector system is one of the most established platforms to produce biological products, and it plays a fundamental role in the context of COVID-19 emergency, providing recombinant proteins for treatment, diagnosis, and prevention. SARS-CoV-2 infection is mediated by the interaction of the spike glycoprotein trimer via its receptor-binding domain (RBD) with the host's cellular receptor. As RBD is required for many applications, in the context of pandemic it is important to meet the challenge of producing a high amount of recombinant RBD (rRBD). For this reason, in the present study, we developed a process based on Sf9 insect cells to improve rRBD yield. rRBD was recovered from the supernatant of infected cells and easily purified by metal ion affinity chromatography, with a yield of 82% and purity higher than 95%. Expressed under a novel chimeric promoter (polh-pSeL), the yield of rRBD after purification was 21.1 ± 3.7 mg/L, which is the highest performance described in Sf9 cell lines. Finally, rRBD was successfully used in an assay to detect specific antibodies in COVID-19 serum samples. The efficient strategy herein described has the potential to produce high-quality rRBD in Sf9 cell line for diagnostic purpose.

Novel bridge multi-species ELISA for detection of SARS-CoV-2 antibodies.

Considering the course of the current SARS-CoV-2 pandemic, it is important to have serological tests for monitoring humoral immune response against SARS-CoV-2 infection and vaccination. Herein we describe a novel bridge enzyme-linked immunosorbent assay (b-ELISA) for SARS-CoV-2 antibodies detection in human and other species, employing recombinant Spike protein as a unique antigen, which is produced at high scale in insect larvae. METHODS: Eighty two human control sera/plasmas and 169 COVID-19 patients' sera/plasmas, confirmed by rRT-PCR, were analyzed by the b-ELISA assay. In addition, a total of 27 animal sera (5 horses, 13 rats, 2 cats and 7 dogs) were employed in order to evaluate the b-ELISA in other animal species. RESULTS: Out of the 169 patient samples, 129 were positive for IgG anti-SARS-CoV-2 and 40 were negative when they were tested by ELISA COVIDAR® IgG. When a cut-off value of 5.0 SDs was established, 124 out of the 129 COVID-19 positive samples were also positive by our developed b-ELISA (sensitivity: 96.12%). Moreover, the test was able to evaluate the humoral immune response in animal models and also detected as positive a naturally infected cat and two dogs with symptoms, whose owners had suffered the COVID-19 disease. CONCLUSION: The obtained results demonstrate that the method developed herein is versatile, as it is able to detect antibodies against SARS-CoV-2 in different animal species without the need to perform and optimize a new assay for each species.

The Membrane-Anchoring Region of the AcMNPV P74 Protein Is Expendable or Interchangeable with Homologs from Other Species.

Baculoviruses are insect pathogens that are characterized by assembling the viral dsDNA into two different enveloped virions during an infective cycle: occluded virions (ODVs; immersed in a protein matrix known as occlusion body) and budded virions (BVs). ODVs are responsible for the primary infection in midgut cells of susceptible larvae thanks to the per os infectivity factor (PIF) complex, composed of at least nine essential viral proteins. Among them, P74 is a crucial factor whose activity has been identified as virus-specific. In this work, the p74 gene from AcMNPV was pseudogenized using CRISPR/Cas9 technology and then complemented with wild-type alleles from SeMNPV and HearSNPV species, as well as chimeras combining the P74 amino and carboxyl domains. The results on Spodoptera exigua and Rachiplusia nu larvae showed that an amino terminal sector of P74 (lacking two potential transmembrane regions but possessing a putative nuclear export signal) is sufficient to restore the virus infectivity whether alone or fused to the P74 transmembrane regions of the other evaluated viral species. These results provide novel information about the functional role of P74 and delimit the region on which mutagenesis could be applied to enhance viral activity and, thus, produce better biopesticides.

Solutions against emerging infectious and noninfectious human diseases through the application of baculovirus technologies.

Baculoviruses are insect pathogens widely used as biotechnological tools in different fields of life sciences and technologies. The particular biology of these entities (biosafety viruses 1; large circular double-stranded DNA genomes, infective per se; generally of narrow host range on insect larvae; many of the latter being pests in agriculture) and the availability of molecular-biology procedures (e.g., genetic engineering to edit their genomes) and cellular resources (availability of cell lines that grow under in vitro culture conditions) have enabled the application of baculoviruses as active ingredients in pest control, as systems for the expression of recombinant proteins (Baculovirus Expression Vector Systems-BEVS) and as viral vectors for gene delivery in mammals or to display antigenic proteins (Baculoviruses applied on mammals-BacMam). Accordingly, BEVS and BacMam technologies have been introduced in academia because of their availability as commercial systems and ease of use and have also reached the human pharmaceutical industry, as incomparable tools in the development of biological products such as diagnostic kits, vaccines, protein therapies, and-though still in the conceptual stage involving animal models-gene therapies. Among all the baculovirus species, the Autographa californica multiple nucleopolyhedrovirus has been the most highly exploited in the above utilities for the human-biotechnology field. This review highlights the main achievements (in their different stages of development) of the use of BEVS and BacMam technologies for the generation of products for infectious and noninfectious human diseases. KEY POINTS: • Baculoviruses can assist as biotechnological tools in human health problems. • Vaccines and diagnosis reagents produced in the baculovirus platform are described. • The use of recombinant baculovirus for gene therapy-based treatment is reviewed.

Rapid and cost-effective process based on insect larvae for scale-up production of SARS-COV-2 spike protein for serological COVID-19 testing.

Serology testing for COVID-19 is important in evaluating active immune response against SARS-CoV-2, studying the antibody kinetics, and monitoring reinfections with genetic variants and new virus strains, in particular, the duration of antibodies in virus-exposed individuals and vaccine-mediated immunity. In this study, recombinant S protein of SARS-CoV-2 was expressed in Rachiplusia nu, an important agronomic plague. One gram of insect larvae produces an amount of S protein sufficient for 150 determinations in the ELISA method herein developed. We established a rapid production process for SARS-CoV-2 S protein that showed immunoreactivity for anti-SARS-CoV-2 antibodies and was used as a single antigen for developing the ELISA method with high sensitivity (96.2%) and specificity (98.8%). Our findings provide an efficient and cost-effective platform for large-scale S protein production, and the scale-up is linear, thus avoiding the use of complex equipment like bioreactors.

Single-step purification of equine chorionic gonadotrophin directly from plasma using affinity chromatography.

Equine chorionic gonadotrophin (eCG) is a hormone widely used in superovulation protocols because of its follicle-stimulating action, which increases reproductive efficiency in animals of productive interest. It contains 45% carbohydrate, 10% of which is N-acetylneuraminic acid (sialic acid). The eCG purification procedures from equine serum or plasma are mainly based on chromatographic methods. However, before these procedures, it is necessary to follow sample pre-conditioning steps, such as several precipitation stages and/or ultrafiltration/diafiltration processes. In this work, an efficient affinity chromatographic matrix for eCG purification directly from plasma was developed. The matrix consisted of chitosan mini-spheres with immobilized wheat germ agglutinin (WGA). The matrix allowed 98% adsorption of eCG directly from plasma without any pre-treatment with an overall yield of around 60%. The matrix chosen was able to maintain the efficient performance of the purification process for three consecutive cycles. Also, the process was scaled-up 500 times in volume and tested over seven consecutive cycles maintaining its chromatographic performance. The results presented here suggest the potential application of this matrix to one-step purification of eCG from plasma.

Biotechnological potential of Phospholipase D for Loxosceles antivenom development.

Loxoscelism is one of the most important forms of araneism in South America. The Health Authorities from countries with the highest incidence and longer history in registering loxoscelism cases indicate that specific antivenom should be administered during the first hours after the accident, especially in the presence or at risk of the most severe clinical outcome. Current antivenoms are based on immunoglobulins or their fragments, obtained from plasma of hyperimmunized horses. Antivenom has been produced using the same traditional techniques for more than 120 years. Although the whole composition of the spider venom remains unknown, the discovery and biotechnological production of the phospholipase D enzymes represented a milestone for the knowledge of the physiopathology of envenomation and for the introduction of new innovative tools in antivenom production. The fact that this protein is a principal toxin of the venom opens the possibility of replacing the use of whole venom as an immunogen, an attractive alternative considering the laborious techniques and low yields associated with venom extraction. This challenge warrants technological innovation to facilitate production and obtain more effective antidotes. In this review, we compile the reported studies, examining the advances in the expression and application of phospholipase D as a new immunogen and how the new biotechnological tools have introduced some degree of innovation in this field.

Simple production of hydrophobin-fused domain III of dengue envelope protein and induction of neutralizing antibodies against the homotypic serotype of dengue virus.

Hydrophobin-fused domain III of dengue envelope proteins serotypes 1 and 2 were expressed in Rachiplusia nu larvae and purified by aqueous two-phase system. This biotechnological approach of hydrophobin-fused proteins, which allowed obtaining 97.7 µg/larva of fusion protein DomIII serotype 1 and 61.4 µg/larva of fusion protein DomIII serotype 2, represents an integrated strategy for simple production of recombinant antigens. Purified fusion proteins induced serotype-specific neutralizing antibodies without cross-reaction against other serotypes and arboviruses after mouse immunization. hydrophobin-fused domain III of dengue envelope protein could be a promising strategy for easy and low-cost production of components of a tetravalent sub-unit vaccine against dengue.

Highly efficient production of rabies virus glycoprotein G ectodomain in Sf9 insect cells.

In the present study, we developed a complete process to produce in insect cells a high amount of the ectodomain of rabies virus glycoprotein G (GE) as suitable antigen for detecting anti-rabies antibodies. Using the baculovirus expression vector system in Sf9 insect cells combined with a novel chimeric promoter (polh-pSeL), the expression level reached a yield of 4.1 ± 0.3 mg/L culture, which was significantly higher than that achieved with the standard polh promoter alone. The protein was recovered from the cell lysates and easily purified in only one step by metal ion affinity chromatography, with a yield of 95% and a purity of 87%. Finally, GE was successfully used in an assay to detect specific antibodies in serum samples derived from rabies-vaccinated animals. The efficient strategy developed in this work is an interesting method to produce high amounts of this glycoprotein.

Production of biologically active feline interferon beta in insect larvae using a recombinant baculovirus.

Feline interferon beta is a cytokine that belongs to the type I IFN family, with antitumor, antiviral and immunomodulatory functions. In this work, recombinant feline interferon beta (rFeIFNß) was expressed in insect larvae that constitute important agronomic plagues. rFeIFNß accumulated in the hemolymph of Spodoptera frugiperda larvae infected with recombinant baculovirus and was purified by Blue-Sepharose chromatography directly from larval homogenates on day 4 post-infection. rFeIFNß was recovered after purification with a specific activity of 1 × 106 IU mg-1. By this method, we obtained 8.9 × 104 IU of purified rFeIFNß per larva. The product was biologically active in vitro, with an antiviral activity of 9.5 × 104 IU mL-1, as well as a potent antitumor activity comparable to that of the commercial FeIFNω. The glycosylation of rFeIFNß was confirmed by peptide-N-glycosidase F digestion. Our findings provide a cost-effective platform for large-scale rFeIFNß production in laboratory research or veterinary medicine applications.

Screening assay for inhibitors of a recombinant Streptococcus pneumoniae UDP-glucose pyrophosphorylase.

The UDP-glucose pyrophosphorylase of Streptococcus pneumoniae (GalUSpn) is absolutely required for the biosynthesis of capsular polysaccharide, the sine qua non virulence factor of pneumococcus. Since the eukaryotic enzymes are completely unrelated to their prokaryotic counterparts, we propose that the GalU enzyme is a critical target to fight the pneumococcal disease. A recombinant GalUSpn was overexpressed and purified. An enzymatic assay that is rapid, sensitive and easy to perform was developed. This assay was appropriate for screening chemical libraries for searching GalU inhibitors. This work represents a fundamental step in the exploration of novel antipneumococcal drugs.

Integrated process for the purification and immobilization of the envelope protein domain III of dengue virus type 2 expressed in Rachiplusia nu larvae and its potential application in a diagnostic assay.

Dengue incidence has grown dramatically in the last years, with about 40% of the world population at risk of infection. Recently, a vaccine developed by Sanofi Pasteur has been registered, but only in a few countries. Moreover, specific antiviral drugs are not available. Thus, an efficient and accurate diagnosis is important for disease management. To develop a low-cost immunoassay for dengue diagnosis, in the present study we expressed the envelope protein domain III of dengue virus type 2 in Rachiplusia nu larvae by infection with a recombinant baculovirus. The antigen was expressed as a fusion to hydrophobin I (DomIIIHFBI) to easily purify it by an aqueous two-phase system (ATPS) and to efficiently immobilize it in immunoassay plates. A high level of recombinant DomIIIHFBI was obtained in R. nu, where yields reached 4.5 mg per g of larva. Also, we were able to purify DomIIIHFBI by an ATPS with 2% of Triton X-114, reaching a yield of 73% and purity higher than 80% in a single purification step. The recombinant DomIIIHFBI was efficiently immobilized in hydrophobic surface plates. The immunoassay we developed with the immobilized antigen was able to detect IgG specific for dengue virus type 2 in serum samples and not for other serotypes.

Reabsorção óssea associada ao implante de silicone em mentoplastia: relato de caso clínico / Bone reabsorption associated with silicone implants in mentoplasty: a clinical case report

Durante muitos anos, os implantes de silicone foram utilizados em cirurgias reconstrutivas e estéticas, principalmente em casos em que o perfil facial do paciente apresenta deficiência no terço inferior da face. Este material tem provado ser bem sucedido na maioria dos aspectos, contudo, algumas complicações já foram bem relatadas na literatura, como é o caso das reabsorções ósseas na região de mento mandibular. No presente artigo os autores apresentam dois casos clínicos de reabsorção óssea da cortical anterior do mento, associada ao implante de silicone e discutem a etiologia, as complicações e o plano de tratamento.

For many years, silicone implants were used in reconstructive and esthetic surgeries, especially in cases in which the facial profile of patients presented deficiencies in the inferior third of the face. This material proved to be successful in most aspects. However, several complications were well reported in the literature, as the case of bone reabsorption in the region of the mandibular chin. In this article, the authors present two clinical cases of bone reabsorption from the anterior cortex of the chin associated with silicone implants and discuss the etiology, complications, and treatment plan.

Cytotoxic effects induced by interferon-ω gene lipofection through ROS generation and mitochondrial membrane potential disruption in feline mammary carcinoma cells.

Progress in comparative oncology promises advances in clinical cancer treatments for both companion animals and humans. In this context, feline mammary carcinoma (FMC) cells have been proposed as a suitable model to study human breast cancer. Based on our previous data about the advantages of using type I interferon gene therapy over the respective recombinant DNA derived protein, the present work explored the effects of feline interferon-ω gene (fIFNω) transfer on FMC cells. Three different cell variants derived from a single spontaneous highly aggressive FMC tumor were successfully established and characterized. Lipofection of the fIFNω gene displayed a significant cytotoxic effect on the three cell variants. The extent of the response was proportional to ROS generation, mitochondrial membrane potential disruption and calcium uptake. Moreover, a lower sensitivity to the treatment correlated with a higher malignant phenotype. Our results suggest that fIFNω lipofection could offer an alternative approach in veterinary oncology with equal or superior outcome and with less adverse effects than recombinant fIFNω therapy.

Estudo comparativo entre pentoxifilina e triancinolona no tratamento das cicatrizes hipertróficas pós-queimadura quanto à remodelação do colágeno e das fibras do sistema elástico / Comparative study of pentoxifylline and triamcinolone in the treatment of post-burn hypertrophic scars on the collagen remodeling and elastic system fibers

Introdução: O tratamento das sequelas cicatriciais permanece um desafio na prática diária. Corticosteroides injetáveis são amplamente utilizados no combate a queloides e cicatrizes hipertróficas, mas substâncias como a pentoxifilina (PTF) também têm demonstrado eficácia clínica na modulação dessas cicatrizes. Objetivos: No presente estudo, propusemos a comparação dos efeitos da PTF e do corticosteroide triancinolona nas cicatrizes hipertróficas de pacientes vítimas de queimaduras por meio de análise histológica da organização das fibras que contêm colágeno e das fibras do sistema elástico. Métodos: Foram estudadas amostras de pele cicatricial de 10 pacientes, entre 20 e 40 anos, com história de queimaduras em tronco, com até 24 meses de evolução, não tratadas cirurgicamente. Cada paciente teve duas áreas cicatriciais tratadas, uma com Hexacetonido de Triancinolona 20 mg/ml e outra com Pentoxifilina 1 mg/ ml; tendo sido realizadas três aplicações intracicatriciais com intervalos mensais. Uma biópsia de cada área tratada foi colhida após 30 dias de cada aplicação. Resultados: Os resultados clínicos foram evidentes e semelhantes para as duas drogas: diminuição da espessura, do prurido, da hiperemia e da consistência da cicatriz. Não se observaram diferenças arquiteturais no tecido conjuntivo subepidérmico quando comparadas a cicatriz original com as cicatrizes após cada tipo de tratamento (grandes feixes de fibras colágenas em todas as direções, com ausência de fibras do sistema elástico). Estudos subsequentes envolvendo a análise da espessura total da cicatriz e o grau de vascularização/ inflamação presentes se fazem necessários na investigação da justificativa da eficácia clínica dos tratamentos. Conclusão: Concluímos que a PTF teve uma resposta clínica e morfológica similar à triancinolona nos casos tratados.

Introduction: The treatment of scarring sequelae remains challenge in daily practice. Injecting corticosteroids are widely used to combat keloids and hypertrophic scars, but substances such as pentoxifylline (PTF) have also demonstrated clinical efficacy in modulating these scars. Objectives: This study set out to compare the effects of TFP and corticosteroid triamcinolone in hypertrophic scars of burn victims by histological analysis of the organization of the fibers containing collagen and elastic system fibers. Methods: Scar skin samples from 10patients were studied between 20 and 40 years, with a history of burns on the trunk, up to 24 months of evolution, not surgically treated. Each patient had two treated scar areas, one with triamcinolone hexacetonide 20 mg/ml and the other with pentoxifylline 1 mg/ml; having been held three intracicatriciais applications at monthly intervals. A biopsy of each treated area was harvested after 30 days of each application. Results: The clinical results were evident and similar for the two drugs: thinning, itching, hyperemia and scar consistency. There were no differences in architectural subepidermal connective tissue when compared with the original scar scars after each treatment (large bundles of collagen fibers in all directions with no elastic system fibers). Subsequent studies involving the analysis of the total thickness of the scar and the extent of vascularization/inflammation gifts are needed to investigate the reasons of clinical efficacy of treatments. Conclusion: We conclude that TFP had a clinical and morphological response similar to triamcinolone in treated cases.

Bovine lactoferrin purification from whey using Yellow HE-4R as the chromatographic affinity ligand.

The worldwide production of whey increases by around 186 million tons each year and it is generally considered as a waste, even when several whey proteins have important economic relevance. For its valorization, inexpensive ligands and integrated chromatography methods need to be developed for specific and low-cost protein purification. Here, we describe a novel affinity process with the dye Yellow HE-4R immobilized on Sepharose for bovine lactoferrin purification. This approach based on a low-cost ligand showed an efficient performance for the recovery and purification of bovine lactoferrin directly from whey, with a yield of 71% and a purification factor of 61.

Rachiplusia nu larva as a biofactory to achieve high level expression of horseradish peroxidase.

A process based on orally-infected Rachiplusia nu larvae as biological factories for expression and one-step purification of horseradish peroxidase isozyme C (HRP-C) is described. The process allows obtaining high levels of pure HRP-C by membrane chromatography purification. The introduction of the partial polyhedrin homology sequence element in the target gene increased HRP-C expression level by 2.8-fold whereas it increased 1.8-fold when the larvae were reared at 27 °C instead of at 24 °C, summing up a 4.6-fold overall increase in the expression level. Additionally, HRP-C purification by membrane chromatography at a high flow rate greatly increase D the productivity without affecting the resolution. The V(max) and K(m) values of the recombinant HRP-C were similar to those of the HRP from Armoracia rusticana roots.