Your search keyword '"brown spider"' showing total 209 results

1. Brown Spider Venom Phospholipase-D Activity upon Different Lipid Substrates

Author

Chaves-Moreira, Daniele, Gremski, Luiza Helena, de Moraes, Fábio Rogério, Vuitika, Larissa, Wille, Ana Carolina Martins, González, Jorge Enrique Hernández, Chaim, Olga Meiri, Senff-Ribeiro, Andrea, Arni, Raghuvir Krishnaswamy, and Veiga, Silvio Sanches

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Animals, Sphingomyelins, Phosphoric Diester Hydrolases, Phospholipase D, Spider Venoms, Phospholipids, Lysophosphatidylcholines, Spiders, brown spider, Loxosceles intermedia, venom, phospholipase-D substrate, recombinant toxin, phospholipids, Biochemistry and Cell Biology, Pharmacology and pharmaceutical sciences

Abstract

Brown spider envenomation results in dermonecrosis, characterized by an intense inflammatory reaction. The principal toxins of brown spider venoms are phospholipase-D isoforms, which interact with different cellular membrane components, degrade phospholipids, and generate bioactive mediators leading to harmful effects. The Loxosceles intermedia phospholipase D, LiRecDT1, possesses a loop that modulates the accessibility to the active site and plays a crucial role in substrate. In vitro and in silico analyses were performed to determine aspects of this enzyme's substrate preference. Sphingomyelin d18:1/6:0 was the preferred substrate of LiRecDT1 compared to other Sphingomyelins. Lysophosphatidylcholine 16:0/0:0 was preferred among other lysophosphatidylcholines, but much less than Sphingomyelin d18:1/6:0. In contrast, phosphatidylcholine d18:1/16:0 was not cleaved. Thus, the number of carbon atoms in the substrate plays a vital role in determining the optimal activity of this phospholipase-D. The presence of an amide group at C2 plays a key role in recognition and activity. In silico analyses indicated that a subsite containing the aromatic residues Y228 and W230 appears essential for choline recognition by cation-π interactions. These findings may help to explain why different cells, with different phospholipid fatty acid compositions exhibit distinct susceptibilities to brown spider venoms.

Published

2023

2. The Health Status of Horses Used for at Least Six Complete Cycles of Loxoscelic Antivenom Production.

Author

Miranda, Ana Luísa Soares de, Antunes, Bruno Cesar, Minozzo, João Carlos, Lima, Sabrina de Almeida, Botelho, Ana Flávia Machado, Campos, Marco Túlio Gomes, Chávez-Olórtegui, Carlos, and Soto-Blanco, Benito

Subjects

*HORSE health, *ANTIVENINS, *KIDNEY physiology, *VENOM, *HORSE breeding, *LOXOSCELES, *IMMUNOGLOBULINS

Abstract

Antivenom production against Loxosceles venom relies on horses being immunized and bled for plasma harvest. One horse can partake in several cycles of antivenom production, which will require years of constant venom and adjuvant inoculation and bleeding. The actual impact on the health of horses that participate in several antivenom-producing cycles is unknown. Therefore, this study aimed to evaluate the general health status of horses that underwent at least six cycles of loxoscelic antivenom production. Seven crossbred horses that had partaken in six to eight complete antivenom-producing cycles were used and established as the immunized group (IG). Under the same handling and general management, eleven horses were established as the control group (CG). The horses were evaluated regarding their general clinical status and had their blood sampled, and an ECG recorded. The IG presented lower RBC and PCV, despite keeping values within inferior limits for the species. Renal function was not impaired, and liver-related enzymes were higher than those in the CG, probably due to liver exertion from immunoglobulin synthesis. ECG showed some abnormalities in the IG, such as atrioventricular block and a wandering atrial pacemaker, corroborated by an increase in CK-MB. The cardiovascular abnormalities were mainly found in the horses that participated in several antivenom-producing cycles. The overall results indicate that these horses had some impairment of their general health status. Once available, some alternative, less toxic antigens should replace the venom for immunization of horses used for antivenom production. [ABSTRACT FROM AUTHOR]

Published

2023

3. The C-terminal mutation beyond the catalytic site of brown spider phospholipase D significantly impacts its biological activities.

Author

Cunha, Laís Cardoso, Barreto, Lucas Passos, Valadares, Veronica Silva, Oliveira, Camila Franco Batista, Vuitika, Larissa, Vilela, Maura Páscoa, Cino, Elio A., Silva, Adolfo Henrique de Moraes, Nagem, Ronaldo A.P., Chávez-Olórtegui, Carlos, Dias-Lopes, Camila, Molina, Franck, and Felicori, Liza

Subjects

*PHOSPHOLIPASE D, *SPIDER venom, *SPIDERS, *PHOSPHOLIPASES, *SITE-specific mutagenesis, *LOXOSCELES, *SPHINGOMYELINASE

Abstract

Loxosceles spider envenomation results in dermonecrosis, principally due to phospholipases D (PLDs) present in the venom. These enzymes have a strongly conserved sequence, 273 ATXXDNPW 280 , in the C-terminal region (SMD-tail) that make contact with β-sheets of the TIM barrel, in which the amino acids Asp277 and Trp280 establish the energetically strongest contacts. The SMD-tail is conserved in PLDs from different species but absent in the non-toxic PLD ancestral glycerophosphodiester phosphodiesterases (GDPDs). This work aims to understand the role of the C-terminal region in the structural stability and/or function of phospholipases D. Through site-directed mutagenesis of the rLiD1 protein (recombinant Loxosceles intermedia dermonecrotic protein 1), we produced two mutants: rLiD1D277A and rLiD1W280A (both with sphingomyelinase activity), in which Asp277 and Trp280 were replaced by alanine. rLiD1D277A showed similar sphingomyelinase activity but at least 2 times more dermonecrotic activity than rLiD1 (wild-type protein). Conversely, while the rLiD1W280A displayed a slight increase in sphingomyelinase activity, its biological activity was similar or lower compared to rLiD1, potentially due to its decreased thermostability and formation of amyloid aggregates. In conclusion, these new findings provide evidence that SMD-tail mutants impact the structure and function of these proteins and point out that residues outside the active site can even increase the function of these enzymes. • Spider PLD's C-terminal mutation, Asp277 to Ala, increases dermonecrosis in vivo. • The Asp277 to Ala mutation does not affect enzymatic activity in vitro. • Spider PLD's C-terminal mutation, Trp280 to Ala, lowers enzyme thermostability. • Trp280 to Ala mutation slightly increases enzyme activity in vitro. • Mutations in PLD's conserved C-terminal amino acids affect its structure and function. [ABSTRACT FROM AUTHOR]

Published

2023

4. Comparative Biochemical, Structural, and Functional Analysis of Recombinant Phospholipases D from Three Loxosceles Spider Venoms.

Author

da Justa, Hanna Câmara, Hernández González, Jorge Enrique, Vuitika, Larissa, Mariutti, Ricardo Barros, Magnago, Pedro Augusto Martinho, de Moraes, Fábio Rogério, Senff-Ribeiro, Andrea, Gremski, Luiza Helena, Arni, Raghuvir Krishnaswamy, and Veiga, Silvio Sanches

Subjects

*SPIDER venom, *LOXOSCELES, *PHOSPHOLIPASES, *FUNCTIONAL analysis, *MOLECULAR dynamics, *PROTEIN stability

Abstract

Spiders of Loxosceles genus are widely distributed and their venoms contain phospholipases D (PLDs), which degrade phospholipids and trigger inflammatory responses, dermonecrosis, hematological changes, and renal injuries. Biochemical, functional, and structural properties of three recombinant PLDs from L. intermedia, L. laeta, and L. gaucho, the principal species clinically relevant in South America, were analyzed. Sera against L. gaucho and L. laeta PLDs strongly cross-reacted with other PLDs, but sera against L. intermedia PLD mostly reacted with homologous molecules, suggesting underlying structural and functional differences. PLDs presented a similar secondary structure profile but distinct melting temperatures. Different methods demonstrated that all PLDs cleave sphingomyelin and lysophosphatidylcholine, but L. gaucho and L. laeta PLDs excelled. L. gaucho PLD showed greater "in vitro" hemolytic activity. L. gaucho and L. laeta PLDs were more lethal in assays with mice and crickets. Molecular dynamics simulations correlated their biochemical activities with differences in sequences and conformations of specific surface loops, which play roles in protein stability and in modulating interactions with the membrane. Despite the high similarity, PLDs from L. gaucho and L. laeta venoms are more active than L. intermedia PLD, requiring special attention from physicians when these two species prevail in endemic regions. [ABSTRACT FROM AUTHOR]

Published

2023

5. Brown Spider (Loxosceles) Venom Toxins as Potential Biotools for the Development of Novel Therapeutics

Author

Chaves-Moreira, Daniele, Matsubara, Fernando Hitomi, Schemczssen-Graeff, Zelinda, De Bona, Elidiana, Heidemann, Vanessa Ribeiro, Guerra-Duarte, Clara, Gremski, Luiza Helena, Chávez-Olórtegui, Carlos, Senff-Ribeiro, Andrea, Chaim, Olga Meiri, Arni, Raghuvir Krishnaswamy, and Veiga, Silvio Sanches

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Analgesics, Animals, Anti-Inflammatory Agents, Antineoplastic Agents, Humans, Immunotherapy, Insecticides, Neuroprotective Agents, Peptides, Phosphoric Diester Hydrolases, Recombinant Proteins, Serine Proteinase Inhibitors, Spider Venoms, Tumor Protein, Translationally-Controlled 1, brown spider, venom, Loxosceles, toxins, biotools, drug targets, novel therapeutics, Biochemistry and Cell Biology, Pharmacology and pharmaceutical sciences

Abstract

Brown spider envenomation results in dermonecrosis with gravitational spreading characterized by a marked inflammatory reaction and with lower prevalence of systemic manifestations such as renal failure and hematological disturbances. Several toxins make up the venom of these species, and they are mainly peptides and proteins ranging from 5-40 kDa. The venoms have three major families of toxins: phospholipases-D, astacin-like metalloproteases, and the inhibitor cystine knot (ICK) peptides. Serine proteases, serpins, hyaluronidases, venom allergens, and a translationally controlled tumor protein (TCTP) are also present. Toxins hold essential biological properties that enable interactions with a range of distinct molecular targets. Therefore, the application of toxins as research tools and clinical products motivates repurposing their uses of interest. This review aims to discuss possibilities for brown spider venom toxins as putative models for designing molecules likely for therapeutics based on the status quo of brown spider venoms. Herein, we explore new possibilities for the venom components in the context of their biochemical and biological features, likewise their cellular targets, three-dimensional structures, and mechanisms of action.

Published

2019

6. TCTP from Loxosceles Intermedia (Brown Spider) Venom Contributes to the Allergic and Inflammatory Response of Cutaneous Loxoscelism

Author

Boia-Ferreira, Marianna, Moreno, Kamila G, Basílio, Alana BC, da Silva, Lucas P, Vuitika, Larissa, Soley, Bruna, Wille, Ana Carolina M, Donatti, Lucélia, Barbaro, Katia C, Chaim, Olga M, Gremski, Luiza Helena, Veiga, Silvio S, and Senff-Ribeiro, Andrea

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Animals, Biomarkers, Tumor, Cimetidine, Cromolyn Sodium, Dose-Response Relationship, Drug, Hypersensitivity, Inflammation, Injections, Intraperitoneal, Injections, Intravenous, Mast Cells, Mice, Phosphoric Diester Hydrolases, Piperidines, Promethazine, Rabbits, Rats, Skin Diseases, Spider Venoms, Tumor Cells, Cultured, Tumor Protein, Translationally-Controlled 1, Loxosceles, brown spider, TCTP, venom, toxin, HRF, Biological sciences, Biomedical and clinical sciences

Abstract

LiTCTP is a toxin from the Translationally Controlled Tumor Protein (TCTP) family identified in Loxosceles brown spider venoms. These proteins are known as histamine-releasing factors (HRF). TCTPs participate in allergic and anaphylactic reactions, which suggest their potential role as therapeutic targets. The histaminergic effect of TCTP is related to its pro-inflammatory functions. An initial characterization of LiTCTP in animal models showed that this toxin can increase the microvascular permeability of skin vessels and induce paw edema in a dose-dependent manner. We evaluated the role of LiTCTP in vitro and in vivo in the inflammatory and allergic aspects that undergo the biological responses observed in Loxoscelism, the clinical condition after an accident with Loxosceles spiders. Our results showed LiTCTP recombinant toxin (LiRecTCTP) as an essential synergistic factor for the dermonecrotic toxin actions (LiRecDT1, known as the main toxin in the pathophysiology of Loxoscelism), revealing its contribution to the exacerbated inflammatory response clinically observed in envenomated patients.

Published

2019

7. Systemic Loxoscelism, Less Frequent but More Deadly: The Involvement of Phospholipases D in the Pathophysiology of Envenomation.

Author

Gremski, Luiza Helena, da Justa, Hanna Câmara, Polli, Nayanne Louise Costacurta, Schluga, Pedro Henrique de Caires, Theodoro, João Lucas, Wille, Ana Carolina Martins, Senff-Ribeiro, Andrea, and Veiga, Silvio Sanches

Subjects

*ACUTE kidney failure, *PHOSPHOLIPASES, *LOXOSCELES, *VENOM, *PATHOLOGICAL physiology, *SYMPTOMS, *SPIDER venom, *SPHINGOMYELINASE

Abstract

Bites of Loxosceles spiders can lead to a set of clinical manifestations called loxoscelism, and are considered a public health problem in many regions. The signs and symptoms of loxoscelism are divided into cutaneous and systemic forms. The former is more frequent and includes signs of envenoming at the bite site or neighboring regions. Systemic loxoscelism, although much less frequent, is associated with complications, and can even lead to death. It may include intravascular hemolysis, acute renal failure, and thrombocytopenia. Loxosceles venoms are enriched with phospholipases D (PLDs), which are a family of isoforms found at intra-species and inter-species levels. Under experimental conditions, these enzymes reproduce the main clinical signs of loxoscelism, including an exacerbated inflammatory response at the bite site and dermonecrosis, as well as thrombocytopenia, intravascular hemolysis, and acute renal failure. The role of PLDs in cutaneous loxoscelism was described over forty years ago, when studies identified and purified toxins featured as sphingomyelinase D. More recently, the production of recombinant PLDs and discoveries about their structure and mechanism has enabled a deeper characterization of these enzymes. In this review, we describe these biochemical and functional features of Loxosceles PLDs that determine their involvement in systemic loxoscelism. [ABSTRACT FROM AUTHOR]

Published

2023

8. Production and Functional Evaluation of Anti- Loxosceles Sera Raised by Immunizations of Rabbits with Mutated Recombinant Phospholipases-D.

Author

Antunes, Bruno Cesar, Polli, Nayanne Louise Costacurta, Schluga, Pedro Henrique de Caires, Silva, Thais Pereira da, Wille, Ana Carolina Martins, Locatelli-Dittrich, Rosangela, Souza, Giovana Scuissiatto de, Matsubara, Fernando Hitomi, Minozzo, João Carlos, Senff-Ribeiro, Andrea, Gremski, Luiza Helena, and Veiga, Silvio Sanches

Subjects

LOXOSCELES, IMMUNIZATION, ANTIBODY formation, RABBITS, BLOOD proteins

Abstract

Loxoscelism is the clinical condition triggered after the bite of spiders of the genus Loxosceles. The main species involved in accidents in South America are L. intermedia, L. laeta, and L. gaucho. The only specific treatment is the anti-Loxosceles serum produced with crude venoms. As phospholipases D (PLDs) trigger most of the effects observed in accidents, we developed and evaluated second-generation sera using mutated PLDs as antigens. Three isoforms of PLDs with site-directed mutations without biological activities were used for rabbit immunizations: D32A-E34A (L. gaucho), W230A (L. intermedia), and H12A-H47A (L. laeta). Sera were produced using crude venoms of three species of Loxosceles enriched with mutated recombinant PLDs (MIX) or using only mutated PLDs (REC). Immunizations stimulated the immune system from the second immunization with higher antibody production in the REC group. In vivo neutralization assays demonstrated that both sera reduced edema and dermonecrosis caused by Loxosceles intermedia crude venom. Follow-up of animals during the immunization protocols and in the neutralization assays demonstrated that the mutated proteins and the sera are safe. Results demonstrate the potential of using mutated recombinant PLDs in total or partial replacement of Loxosceles venoms in animal immunizations to produce anti-Loxosceles sera for treatments of Loxoscelism. [ABSTRACT FROM AUTHOR]

Published

2023

9. Subtranscriptome analysis of phospholipases D in Loxosceles venom glands: Confirmation of predominance, intra-species diversity, and description of novel isoforms.

Author

Theodoro, João Lucas, da Justa, Hanna Câmara, de Caires Schluga, Pedro Henrique, Fischer, Marta Luciane, Minozzo, João Carlos, Gremski, Luiza Helena, and Veiga, Silvio Sanches

Subjects

*VENOM glands, *AMINO acid residues, *LOXOSCELES, *PHOSPHOLIPASES, *NUCLEOTIDE sequencing, *VENOM

Abstract

Spiders of Loxosceles genus, or Brown spiders produce a potent venom with minimal volume and protein content. Among its toxins, phospholipases D (PLDs) are notable for causing primary local and systemic manifestations observed following envenomation. They degrade cellular phospholipids, mainly sphingomyelin and lysophosphatidylcholine. We present a robust and detailed analysis of PLD transcripts from venom glands of three major clinically relevant South American species— L. intermedia , L. laeta , and L. gaucho— using next-generation sequencing. Results confirmed that PLDs are the most highly expressed toxins, accounting for 65.4 % of expression in L. intermedia , 71.8 % in L. gaucho , and 50.4 % in L. laeta. These findings further support the idea that these enzymes form a protein family both within and across species. Eighteen contigs for PLDs were found for L. gaucho , 24 for L. intermedia , and 21 for L. laeta. A detailed analysis revealed that, although all contigs display conserved amino acid residues directly involved in catalysis, magnesium coordination, and substrate affinity, they also possess distinct primary sequences with important substitutions. Such data reinforces the hypothesis that these toxins may act synergistically. Furthermore, new PLD sequences were identified within the contigs. For L. intermedia , 14 potential new isoforms were identified; 16 for L gaucho ; and 16 novel sequences for L. laeta. This indicates that there is still a wealth of undisclosed information about these toxins. These data will help identify structural and functional differences among these proteins, support future functional studies, and to the comprehensive understanding of the mechanism of action of PLDs. • Complete set of PLD transcripts from venom glands of three clinically relevant Loxosceles species • Approximately twenty PLD contigs per species were found, analyzed, and compared. • New sequences encoding PLDs were identified within the contigs of the three species. • A phylogenetic analysis provided novel insights into the relationships of Loxosceles PLD genes. [ABSTRACT FROM AUTHOR]

Published

2024

10. Novel insights into the application of recombinant mutated phospholipases D as antigens for developing new strategies against Loxoscelism.

Author

Polli, Nayanne Louise Costacurta, Ferreira, Maria Eduarda de Fraga, Schluga, Pedro Henrique Caires, Antunes, Bruno Cesar, Justa, Hanna Câmara da, Theodoro, João Lucas, Zazula, Matheus Felipe, Naliwaiko, Katya, Minozzo, João Carlos, Senff-Ribeiro, Andrea, Wille, Ana Carolina Martins, Veiga, Silvio Sanches, and Gremski, Luiza Helena

Subjects

*ACUTE kidney failure, *LOXOSCELES, *ANTIGEN analysis, *SPHINGOMYELINASE, *CUTANEOUS manifestations of general diseases, *SPIDER venom, *VENOM

Abstract

• Neutralization of cutaneous and systemic loxoscelism was assessed. • The sphingomyelinase activity of Loxosceles venoms was neutralized. • Number of immunizations optimizes the neutralization, but not the amount of antigens. • Kidney injury was mitigated by immunizations with the tested antigens. • Gaps were addressed to support the implementation of these mutated PLDs as antigens. Loxoscelism is the pathological condition triggered by a brown spider bite. The venom of these spiders is rich in phospholipases D (PLDs), which can induce virtually all local and systemic manifestations. Recombinant mutated PLDs from clinically relevant Loxosceles species in South America have been investigated as potential antigens to develop novel therapeutic strategies for loxoscelism. However, certain gaps need to be addressed before a clinical approach can be implemented. In this study, we examined the potential of these recombinant mutated PLDs as antigens by testing some variations in the immunization scheme. Furthermore, we evaluated the efficacy of the produced antibodies in neutralizing the nephrotoxicity and sphingomyelinase activity of brown spider venoms. Our findings indicate that the number of immunizations has a greater impact on the effectiveness of neutralization compared to the amount of antigen. Specifically, two or three doses were equally effective in reducing dermonecrosis and edema. Additionally, three immunizations proved to be more effective in neutralizing mice lethality than one or two. Moreover, immunizations mitigated the signs of kidney injury, a crucial aspect given that acute renal failure is a serious systemic complication. In vitro inhibition of the sphingomyelinase activity of Loxosceles venoms, a key factor in vivo toxicity, was nearly complete after incubation with antibodies raised against these antigens. These findings underscore the importance of implementing an effective immunization scheme with multiple immunizations, without the need for high antigen doses, and enhances the spectrum of neutralization exhibited by antibodies generated with these antigens. In summary, these results highlight the strong potential of these antigens for the development of new therapeutic strategies against cutaneous and systemic manifestations of loxoscelism. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

11. The Health Status of Horses Used for at Least Six Complete Cycles of Loxoscelic Antivenom Production

Author

Ana Luísa Soares de Miranda, Bruno Cesar Antunes, João Carlos Minozzo, Sabrina de Almeida Lima, Ana Flávia Machado Botelho, Marco Túlio Gomes Campos, Carlos Chávez-Olórtegui, and Benito Soto-Blanco

Subjects

antisera production, brown spider, dermonecrosis, loxoscelism, safety evaluation, Medicine

Abstract

Antivenom production against Loxosceles venom relies on horses being immunized and bled for plasma harvest. One horse can partake in several cycles of antivenom production, which will require years of constant venom and adjuvant inoculation and bleeding. The actual impact on the health of horses that participate in several antivenom-producing cycles is unknown. Therefore, this study aimed to evaluate the general health status of horses that underwent at least six cycles of loxoscelic antivenom production. Seven crossbred horses that had partaken in six to eight complete antivenom-producing cycles were used and established as the immunized group (IG). Under the same handling and general management, eleven horses were established as the control group (CG). The horses were evaluated regarding their general clinical status and had their blood sampled, and an ECG recorded. The IG presented lower RBC and PCV, despite keeping values within inferior limits for the species. Renal function was not impaired, and liver-related enzymes were higher than those in the CG, probably due to liver exertion from immunoglobulin synthesis. ECG showed some abnormalities in the IG, such as atrioventricular block and a wandering atrial pacemaker, corroborated by an increase in CK-MB. The cardiovascular abnormalities were mainly found in the horses that participated in several antivenom-producing cycles. The overall results indicate that these horses had some impairment of their general health status. Once available, some alternative, less toxic antigens should replace the venom for immunization of horses used for antivenom production.

Published

2023

12. Brown spider (Loxosceles sp.) bite and COVID-19: A case report.

Author

Ferreira, Marceli Dias, Veiga, Silvio Sanches, and dos Santos, Fábio André

Subjects

*CALCITONIN, *LIPS, *LOXOSCELES, *COVID-19 pandemic, *LUMBAR pain, *SPIDER venom, *SPIDERS

Abstract

We present the case of a 32-year-old male patient hospitalized during the COVID-19 pandemic because of a Brown spider bite on his lower lip. The Brown spider accident occurred in southern Brazil; at hospital admission, the patient presented on his lip: edema, pustules, necrotic regions, and ulcerations. The patient complained of lower back pain, fever and dyspnea. Laboratory tests showed monocytosis, leukocytosis, neutrophilia, increased D-dimer levels, C-reactive protein, glutamate-pyruvate transaminase, delta bilirubin, creatine phosphokinase, procalcitonin, and fibrinogen. The patient was hospitalized and a multi-professional team carried out the treatment. The medical team diagnosed loxoscelism with moderate changes. The dentist treated the oral cavity. The patient began to develop nausea, vomiting, and desaturation episodes during hospitalization. A computed tomography of the chest was performed, which showed signs of viral infection. The RT-PCR test for COVID-19 was positive. The systemic conditions worsened (renal dysfunction, systemic inflammatory response, pulmonary complications). This condition may have resulted from the association of the two diseases (loxoscelism and COVID-19), leading to the patient's death. This case illustrates the difficulties and risks in treating patients with venomous animal accidents during the pandemic, and the importance of a multi-professional team in treating such cases. [Display omitted] • Describes a local and systemic reaction to a Brown spider bite on the lower lip. • The combined systemic effect of Brown spider venom and SARS-CoV-2 infection. • Special attention in treating patients after Brown spider bites. • Loxoscelism -a condition that increases and exacerbates inflammatory response. [ABSTRACT FROM AUTHOR]

Published

2022

13. Clinical Effects of the Immunization Protocol Using Loxosceles Venom in Naïve Horses.

Author

Miranda, Ana Luísa Soares de, Antunes, Bruno Cesar, Minozzo, João Carlos, Lima, Sabrina de Almeida, Botelho, Ana Flávia Machado, Campos, Marco Túlio Gomes, Chávez-Olórtegui, Carlos Delfin, and Soto-Blanco, Benito

Subjects

*LOXOSCELES, *VENOM, *RAYLEIGH waves, *HORSE health, *HORSES, *ANTIVENINS, *HORSE breeding, *HORSE breeds

Abstract

Bites of brown spiders (Loxosceles spp.) are responsible for dermonecrotic lesions and potentially systemic envenoming that can lead to death. The only effective therapy is the use of the antivenom, usually produced in horses. However, little is known about the consequences of the systematic use of the Loxosceles venom and adjuvants and of the bleedings on antivenom-producing horses. Thus, the aim of this study was to evaluate the clinical changes in horses in their first immunization protocol for Loxosceles antivenom production. Eleven healthy horses, never immunized, were evaluated in three different periods: T0 (before immunization); T1 (after their first venom immunization); and T2 (after their first bleeding). Horses were clinically evaluated, sampled for blood, and underwent electrocardiographic (ECG) recordings. Several suppurated subcutaneous abscesses occurred due to the use of Freund's adjuvants and thrombophlebitis due to systematic venipunctures for the bleeding procedures. ECG showed arrhythmias in few horses in T2, such as an increase in T and R waves. In summary, the immunization protocol impacted on horses' health, especially after bleeding for antivenom procurement. [ABSTRACT FROM AUTHOR]

Published

2022

14. Protective Effectiveness of an Immunization Protocol Against the Toxic Effects of Loxosceles intermedia Venom in Rabbits

Author

Ana Luísa Soares de Miranda, Sabrina de Almeida Lima, Ana Flávia Machado Botelho, Marco Túlio Gomes Campos, Camila Eckstein, João Carlos Minozzo, Carlos Delfin Chávez-Olórtegui, and Benito Soto-Blanco

Subjects

brown spider, dermonecrosis, immunization, loxoscelism, spider bite, Veterinary medicine, SF600-1100

Abstract

Loxosceles spp. (brown spiders) bites are responsible for the development of a syndrome consisting mainly of dermonecrotic lesions, and also systemic effects. Rabbits are one of the main experimental models used for better understanding the systemic and local effects of Loxosceles venom. The aim of this study is to evaluate the toxic and protective effects of rabbits immunized with Loxosceles spp. venom. Male New Zealand rabbits were allocated as a control group (CG; n = 5) that received adjuvant (Montanide) and phosphate-buffer saline (PBS), or as venom group (VG; n = 5) that received 21 μg of Loxosceles venom using Montanide as adjuvant. After five immunization cycles, a trial with 7 μg of Loxosceles intermedia (L. intermedia) venom was performed, and dermonecrotic lesions were measured. The rabbits were then euthanized, and their organs were collected for histopathology analysis. Rabbits that had undergone Loxosceles venom immunization protocol showed minor clinical disturbances during the experimental period. The used immunization protocol protected the rabbits against the toxic effect of the Loxosceles venom because they showed minor clinical disturbances during the experimental period.

Published

2022

15. Temporal evolution of dermonecrosis in loxoscelism assessed by photodocumentation

Author

Carla Fernanda Borrasca-Fernandes, Camila Carbone Prado, Eduardo Mello De Capitani, Stephen Hyslop, and Fábio Bucaretchi

Subjects

Antivenom, Brown spider, Dermonecrosis, Loxosceles spp., Loxoscelism, Arctic medicine. Tropical medicine, RC955-962

Abstract

ABSTRACT Background: Although loxoscelism (bites by brown spiders of the genus Loxosceles) frequently results in dermonecrosis, no previous clinical reports have provided detailed temporal photodocumentation of the evolution of dermonecrotic lesions in a case series. Methods This was a retrospective cohort study involving a case series of loxoscelism. Only cases of dermonecrosis with photodocumentation of lesion evolution (from admission until complete or almost complete healing) were included. Results: Eight patients (six men, two women; median age, 38 years) fulfilled the inclusion criteria. The bite sites included the thigh (n = 4), forearm (n = 2), abdomen (n = 1), and trunk (n = 1). Time interval between the bite and first contact with our service ranged from 15 to 216 h (median = 29 h). The main clinical manifestations included local erythematous and ischemic violaceous lesions overlying a base of indurated edema (livedoid plaque, 8), local pain (8), exanthema (6), serohemorrhagic vesicles/blisters (5), fever (5), and jaundice (1). Based on a previously established classification, the cases were classified as probable cutaneous-necrotic loxoscelism (CNL, n = 4), presumptive CNL (n = 3), and presumptive cutaneous-hemolytic loxoscelism (n = 1). Seven patients were treated with anti-arachnidic antivenom (AV; median time post-bite = 46 h). Complete lesion healing ranged from 34 to 98 days post-bite (median, 68 days; six patients). None of the patients required reconstructive plastic surgery. Conclusions The sequential photographic documentation showed considerable variation in the process of wound healing, with complete epithelialization requiring up to 3 months after the bite.

Published

2022

16. Brown Spider Venom Phospholipase-D Activity upon Different Lipid Substrates

Author

Daniele Chaves-Moreira, Luiza Helena Gremski, Fábio Rogério de Moraes, Larissa Vuitika, Ana Carolina Martins Wille, Jorge Enrique Hernández González, Olga Meiri Chaim, Andrea Senff-Ribeiro, Raghuvir Krishnaswamy Arni, and Silvio Sanches Veiga

Subjects

brown spider, Loxosceles intermedia, venom, phospholipase-D substrate, recombinant toxin, phospholipids, Medicine

Abstract

Brown spider envenomation results in dermonecrosis, characterized by an intense inflammatory reaction. The principal toxins of brown spider venoms are phospholipase-D isoforms, which interact with different cellular membrane components, degrade phospholipids, and generate bioactive mediators leading to harmful effects. The Loxosceles intermedia phospholipase D, LiRecDT1, possesses a loop that modulates the accessibility to the active site and plays a crucial role in substrate. In vitro and in silico analyses were performed to determine aspects of this enzyme’s substrate preference. Sphingomyelin d18:1/6:0 was the preferred substrate of LiRecDT1 compared to other Sphingomyelins. Lysophosphatidylcholine 16:0/0:0 was preferred among other lysophosphatidylcholines, but much less than Sphingomyelin d18:1/6:0. In contrast, phosphatidylcholine d18:1/16:0 was not cleaved. Thus, the number of carbon atoms in the substrate plays a vital role in determining the optimal activity of this phospholipase-D. The presence of an amide group at C2 plays a key role in recognition and activity. In silico analyses indicated that a subsite containing the aromatic residues Y228 and W230 appears essential for choline recognition by cation-π interactions. These findings may help to explain why different cells, with different phospholipid fatty acid compositions exhibit distinct susceptibilities to brown spider venoms.

Published

2023

17. A protective vaccine against the toxic activities following Brown spider accidents based on recombinant mutated phospholipases D as antigens.

Author

Polli, Nayanne Louise Costacurta, Justa, Hanna Camara da, Antunes, Bruno Cesar, Silva, Thais Pereira da, Dittrich, Rosangela Locatelli, de Souza, Giovana Scuissiatto, Wille, Ana Carolina Martins, Matsubara, Fernando Hitomi, Minozzo, João Carlos, Mariutti, Ricardo Barros, Arni, Raghuvir Krishnaswamy, Senff-Ribeiro, Andrea, Veiga, Silvio Sanches, and Gremski, Luiza Helena

Subjects

*AMINO acid residues, *ANTIGENS, *SURFACE charges, *SPIDERS, *SNAKE venom, *IMMUNOGLOBULINS, *LOXOSCELES, *PHOSPHOLIPASES

Abstract

Accidents involving Brown spiders are reported throughout the world. In the venom, the major toxins involved in the deleterious effects are phospholipases D (PLDs). In this work, recombinant mutated phospholipases D from three endemic species medically relevant in South America (Loxosceles intermedia , L. laeta and L. gaucho) were tested as antigens in a vaccination protocol. In such isoforms, key amino acid residues involved in catalysis, magnesium-ion coordination, and binding to substrates were replaced by Alanine (H12A-H47A, E32A-D34A and W230A). These mutations eliminated the phospholipase activity and reduced the generation of skin necrosis and edema to residual levels. Molecular modeling of mutated isoforms indicated that the three-dimensional structures, topologies, and surface charges did not undergo significant changes. Mutated isoforms were recognized by sera against the crude venoms. Vaccination protocols in rabbits using mutated isoforms generated a serum that recognized the native PLDs of crude venoms and neutralized dermonecrosis and edema induced by L. intermedia venom. Vaccination of mice prevented the lethal effects of L. intermedia crude venom. Furthermore, vaccination of rabbits prevented the cutaneous lesion triggered by the three venoms. These results indicate a great potential for mutated recombinant PLDs to be employed as antigens in developing protective vaccines for Loxoscelism. • Mutated Loxosceles recombinant Phospholipases-D are non-toxic proteins with antigenic properties. • Vaccination protocols prevented mouse lethality induced by Loxosceles intermedia venom. • Vaccination protocols prevented signals of cutaneous loxoscelism in rabbits caused by Loxosceles venoms. • Serum of vaccinated animals neutralized cutaneous loxoscelism induced by Loxosceles intermedia venom. • Results evidence these non-toxic Phospholipases-D as potential antigens to develop protective vaccines for Loxoscelism. [ABSTRACT FROM AUTHOR]

Published

2021

18. Systemic Loxoscelism, Less Frequent but More Deadly: The Involvement of Phospholipases D in the Pathophysiology of Envenomation

Author

Luiza Helena Gremski, Hanna Câmara da Justa, Nayanne Louise Costacurta Polli, Pedro Henrique de Caires Schluga, João Lucas Theodoro, Ana Carolina Martins Wille, Andrea Senff-Ribeiro, and Silvio Sanches Veiga

Subjects

brown spider, Loxosceles, venom, toxin, hemolysis, acute renal failure, Medicine

Abstract

Bites of Loxosceles spiders can lead to a set of clinical manifestations called loxoscelism, and are considered a public health problem in many regions. The signs and symptoms of loxoscelism are divided into cutaneous and systemic forms. The former is more frequent and includes signs of envenoming at the bite site or neighboring regions. Systemic loxoscelism, although much less frequent, is associated with complications, and can even lead to death. It may include intravascular hemolysis, acute renal failure, and thrombocytopenia. Loxosceles venoms are enriched with phospholipases D (PLDs), which are a family of isoforms found at intra-species and inter-species levels. Under experimental conditions, these enzymes reproduce the main clinical signs of loxoscelism, including an exacerbated inflammatory response at the bite site and dermonecrosis, as well as thrombocytopenia, intravascular hemolysis, and acute renal failure. The role of PLDs in cutaneous loxoscelism was described over forty years ago, when studies identified and purified toxins featured as sphingomyelinase D. More recently, the production of recombinant PLDs and discoveries about their structure and mechanism has enabled a deeper characterization of these enzymes. In this review, we describe these biochemical and functional features of Loxosceles PLDs that determine their involvement in systemic loxoscelism.

Published

2022

19. Production and Functional Evaluation of Anti-Loxosceles Sera Raised by Immunizations of Rabbits with Mutated Recombinant Phospholipases-D

Author

Bruno Cesar Antunes, Nayanne Louise Costacurta Polli, Pedro Henrique de Caires Schluga, Thais Pereira da Silva, Ana Carolina Martins Wille, Rosangela Locatelli-Dittrich, Giovana Scuissiatto de Souza, Fernando Hitomi Matsubara, João Carlos Minozzo, Andrea Senff-Ribeiro, Luiza Helena Gremski, and Silvio Sanches Veiga

Subjects

brown spider, venom, loxoscelism, serum therapy, phospholipases D, Biology (General), QH301-705.5

Abstract

Loxoscelism is the clinical condition triggered after the bite of spiders of the genus Loxosceles. The main species involved in accidents in South America are L. intermedia, L. laeta, and L. gaucho. The only specific treatment is the anti-Loxosceles serum produced with crude venoms. As phospholipases D (PLDs) trigger most of the effects observed in accidents, we developed and evaluated second-generation sera using mutated PLDs as antigens. Three isoforms of PLDs with site-directed mutations without biological activities were used for rabbit immunizations: D32A-E34A (L. gaucho), W230A (L. intermedia), and H12A-H47A (L. laeta). Sera were produced using crude venoms of three species of Loxosceles enriched with mutated recombinant PLDs (MIX) or using only mutated PLDs (REC). Immunizations stimulated the immune system from the second immunization with higher antibody production in the REC group. In vivo neutralization assays demonstrated that both sera reduced edema and dermonecrosis caused by Loxosceles intermedia crude venom. Follow-up of animals during the immunization protocols and in the neutralization assays demonstrated that the mutated proteins and the sera are safe. Results demonstrate the potential of using mutated recombinant PLDs in total or partial replacement of Loxosceles venoms in animal immunizations to produce anti-Loxosceles sera for treatments of Loxoscelism.

Published

2022

20. Clinical Effects of the Immunization Protocol Using Loxosceles Venom in Naïve Horses

Author

Ana Luísa Soares de Miranda, Bruno Cesar Antunes, João Carlos Minozzo, Sabrina de Almeida Lima, Ana Flávia Machado Botelho, Marco Túlio Gomes Campos, Carlos Delfin Chávez-Olórtegui, and Benito Soto-Blanco

Subjects

antisera production, brown spider, dermonecrosis, loxoscelism, safety evaluation, Medicine

Abstract

Bites of brown spiders (Loxosceles spp.) are responsible for dermonecrotic lesions and potentially systemic envenoming that can lead to death. The only effective therapy is the use of the antivenom, usually produced in horses. However, little is known about the consequences of the systematic use of the Loxosceles venom and adjuvants and of the bleedings on antivenom-producing horses. Thus, the aim of this study was to evaluate the clinical changes in horses in their first immunization protocol for Loxosceles antivenom production. Eleven healthy horses, never immunized, were evaluated in three different periods: T0 (before immunization); T1 (after their first venom immunization); and T2 (after their first bleeding). Horses were clinically evaluated, sampled for blood, and underwent electrocardiographic (ECG) recordings. Several suppurated subcutaneous abscesses occurred due to the use of Freund’s adjuvants and thrombophlebitis due to systematic venipunctures for the bleeding procedures. ECG showed arrhythmias in few horses in T2, such as an increase in T and R waves. In summary, the immunization protocol impacted on horses’ health, especially after bleeding for antivenom procurement.

Published

2022

21. Biotechnological potential of Phospholipase D for Loxosceles antivenom development

Author

Matías Fingermann, Adolfo Rafael de Roodt, Osvaldo Cascone, and María Victoria Miranda

Subjects

Loxosceles, Antivenom, Sphingomyelinase, Phospholipase D, brown spider, Toxicology. Poisons, RA1190-1270

Abstract

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.

Published

2020

22. Clinical aspects, diagnosis and management of Loxosceles spider envenomation: literature and case review.

Author

Lopes, Priscila Hess, Squaiella-Baptistão, Carla Cristina, Marques, Mário Octávio Thá, and Tambourgi, Denise V.

Subjects

*LOXOSCELES, *SPIDERS, *MEDICAL literature, *SYMPTOMS

Abstract

The genus Loxosceles comprises 140 species widely distributed around the world. These spiders are nocturnal, sedentary and remarkably nonaggressive, although they cause accidents in humans with wide degrees of severity, generating signs and symptoms that define the clinical condition known as loxoscelism. Its local signs and symptoms were first reported in 1872, and over the years, a large medical literature has been accumulated; unfortunately, it is not always trustworthy. Assessing the reliability of such information, we reviewed 120 case reports of loxoscelism published in 84 articles over the past 20 years. This search allowed us to gather information on the clinical aspects, diagnosis and treatment of loxoscelism, showing that the severity of these accidents has multiple degrees and that it is influenced by many factors. Thus, coupled with epidemiological and species occurrence information, this study can be a useful tool for the clinical practice of loxoscelism. It may support and provide a multidisciplinary view that should be taken into consideration when establishing the therapeutic approach in cases of Loxosceles envenomation. [ABSTRACT FROM AUTHOR]

Published

2020

23. From taxonomy to molecular characterization of brown spider venom: An overview focused on Loxosceles similis.

Author

Oliveira-Mendes, Bárbara Bruna Ribeiro de, Chatzaki, Maria, Sales-Medina, Douglas Ferreira, Leal, Hortênsia Gomes, van der Veer, Ray, Biscoto, Gabriela Lago, Gonçalves, Priscila Mendes, Soares da Silva, Thais, Guerra-Duarte, Clara, Kalapothakis, Evanguedes, and Horta, Carolina Campolina Rebello

Subjects

*LOXOSCELES, *SPIDER venom, *TAXONOMY, *SPIDERS, *VENOM, *JUMPING spiders

Abstract

Loxosceles spp. (Araneae, Sicariidae), known as brown spiders, are distributed in temperate and tropical regions worldwide. Accidents caused by these spiders are known as loxoscelism and constitute a public health problem, especially in Brazil. The present review describes the taxonomy, distribution, and ecological profile of brown spiders, as well as the molecular and biochemical aspects of Loxosceles venom. Additionally, it presents an overview on L. similis, a species found in the Southeastern region of Brazil. In this region, the number of Loxosceles accidents has been increasing in the past few years , thus calling attention to its raising importance as a medically relevant spider species in Brazil. [ABSTRACT FROM AUTHOR]

Published

2020

24. Forty Years of the Description of Brown Spider Venom Phospholipases-D

Author

Luiza Helena Gremski, Hanna Câmara da Justa, Thaís Pereira da Silva, Nayanne Louise Costacurta Polli, Bruno César Antunes, João Carlos Minozzo, Ana Carolina Martins Wille, Andrea Senff-Ribeiro, Raghuvir Krishnaswamy Arni, and Silvio Sanches Veiga

Subjects

brown spider, venom, phospholipases-d, biochemical and biological activities, Medicine

Abstract

Spiders of the genus Loxosceles, popularly known as Brown spiders, are considered a serious public health issue, especially in regions of hot or temperate climates, such as parts of North and South America. Although the venoms of these arachnids are complex in molecular composition, often containing proteins with distinct biochemical characteristics, the literature has primarily described a family of toxins, the Phospholipases-D (PLDs), which are highly conserved in all Loxosceles species. PLDs trigger most of the major clinical symptoms of loxoscelism i.e., dermonecrosis, thrombocytopenia, hemolysis, and acute renal failure. The key role played by PLDs in the symptomatology of loxoscelism was first described 40 years ago, when researches purified a hemolytic toxin that cleaved sphingomyelin and generated choline, and was referred to as a Sphingomyelinase-D, which was subsequently changed to Phospholipase-D when it was demonstrated that the enzyme also cleaved other cellular phospholipids. In this review, we present the information gleaned over the last 40 years about PLDs from Loxosceles venoms especially with regard to the production and characterization of recombinant isoforms. The history of obtaining these toxins is discussed, as well as their molecular organization and mechanisms of interaction with their substrates. We will address cellular biology aspects of these toxins and how they can be used in the development of drugs to address inflammatory processes and loxoscelism. Present and future aspects of loxoscelism diagnosis will be discussed, as well as their biotechnological applications and actions expected for the future in this field.

Published

2020

25. The brown spider Loxosceles similis (Araneae: Sicariidae): complete mitochondrial genome sequence

Author

Yan Kalapothakis, Kelton Gonçalves Miranda, Adriana Heloísa Pereira, Susanne Facchin, Nazaré Lucio, and Evanguedes Kalapothakis

Subjects

spider, complete mtdna, loxosceles similis, brown spider, sicariidae, Genetics, QH426-470

Abstract

The Brazilian brown spider Loxosceles similis (Moenkhaus, 1898) is, like others from the same genus, an arachnid that can cause serious accidents, which is called loxoscelism. Here, we present the complete mitochondrial genome sequence (mtDNA) of L. similis. The whole DNA molecule is 14,683 bp long, contains 13 protein-coding genes, two rRNA genes, 22 tRNA genes, and a non-coding Control Region (D-loop) of 851 bp. The majority of the protein-coding genes (PCGs) were found on the heavy strain, with the exception of the genes ND1, ND4, ND4L, and ND5. Six different start codons were found. Seven of the PCGs contained a TAG termination codon, and one (ND4) contained an incomplete ‘T–‘ stop codon.

Published

2019

26. A protective vaccine against the toxic activities following Brown spider accidents based on recombinant mutated phospholipases D as antigens

Author

João Carlos Minozzo, Andrea Senff-Ribeiro, Luiza Helena Gremski, Giovana Scuissiatto de Souza, Ricardo Barros Mariutti, Ana Carolina Martins Wille, Rosangela Locatelli Dittrich, Nayanne Louise Costacurta Polli, Thaís Pereira da Silva, Fernando Hitomi Matsubara, Bruno Cesar Antunes, Hanna Camara da Justa, Silvio Sanches Veiga, Raghuvir K. Arni, Universidade Federal do Paraná (UFPR), State Department of Health, Universidade Estadual de Ponta Grossa (UEPG), and Universidade Estadual Paulista (UNESP)

Subjects

Models, Molecular, Gene isoform, Necrosis, Brown spider, Spider Venoms, Venom, Phospholipase, Biology, Biochemistry, Microbiology, law.invention, Leukocyte Count, Mice, Structure-Activity Relationship, Immunogenicity, Vaccine, Antigen, Neutralization Tests, Structural Biology, law, Brown Recluse Spider, Spider Bites, Phospholipase D, medicine, Animals, Molecular Biology, Loxoscelism, Vaccines, Antivenins, Vaccination, General Medicine, Mutated phospholipases D, medicine.disease, Antibodies, Neutralizing, Disease Models, Animal, Treatment Outcome, Accidents, Recombinant DNA, Mutant Proteins, Rabbits, medicine.symptom, Biomarkers

Abstract

Made available in DSpace on 2022-05-01T09:47:17Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-12-01 Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Universidade Federal do Paraná Fundação Araucária Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) Accidents involving Brown spiders are reported throughout the world. In the venom, the major toxins involved in the deleterious effects are phospholipases D (PLDs). In this work, recombinant mutated phospholipases D from three endemic species medically relevant in South America (Loxosceles intermedia, L. laeta and L. gaucho) were tested as antigens in a vaccination protocol. In such isoforms, key amino acid residues involved in catalysis, magnesium-ion coordination, and binding to substrates were replaced by Alanine (H12A-H47A, E32A-D34A and W230A). These mutations eliminated the phospholipase activity and reduced the generation of skin necrosis and edema to residual levels. Molecular modeling of mutated isoforms indicated that the three-dimensional structures, topologies, and surface charges did not undergo significant changes. Mutated isoforms were recognized by sera against the crude venoms. Vaccination protocols in rabbits using mutated isoforms generated a serum that recognized the native PLDs of crude venoms and neutralized dermonecrosis and edema induced by L. intermedia venom. Vaccination of mice prevented the lethal effects of L. intermedia crude venom. Furthermore, vaccination of rabbits prevented the cutaneous lesion triggered by the three venoms. These results indicate a great potential for mutated recombinant PLDs to be employed as antigens in developing protective vaccines for Loxoscelism. Department of Cell Biology Federal University of Paraná (UFPR) Production and Research Center of Immunobiological Products (CPPI) State Department of Health Veterinary Hospital Federal University of Paraná (UFPR) Department of Structural Molecular Biology and Genetics State University of Ponta Grossa (UEPG) Multiuser Center for Biomolecular Innovation Departament of Physics Universidade Estadual Paulista (UNESP) Multiuser Center for Biomolecular Innovation Departament of Physics Universidade Estadual Paulista (UNESP) Universidade Federal do Paraná: 02/2020 Universidade Federal do Paraná: 04/2019 Fundação Araucária: 057/2017 CNPq: 303868/2016-3 CNPq: 408633/2018-2

Published

2021

27. Four new troglophilic species of Loxosceles Heinecken & Lowe, 1832: contributions to the knowledge of recluse spiders from Brazilian caves (Araneae, Sicariidae).

Author

Bertani, Rogério, von Schimonsky, Diego M., Gallão, Jonas E., and Bichuette, Maria E.

Subjects

*LOXOSCELES, *SPIDERS, *LOXOSCELIDAE, *TAXONOMY

Abstract

Four new species of recluse spiders from Brazilian caves are described with both males and females. Loxosceles ericsoni Bertani, von Schimonsky & Gallão, sp. n. and L. karstica Bertani, von Schimonsky & Gallão, sp. n. both occur in caves in the Peruaçu region, located in the northern area of the state of Minas Gerais; L. karstica sp. n. is additionally found in the Serra do Ramalho karst area, located in the southwestern region of the state of Bahia. These two species belong to the gaucho group. Loxosceles carinhanha Bertani, von Schimonsky & Gallão, sp. n. and L. cardosoi Bertani, von Schimonsky & Gallão, sp. n. occur exclusively in caves of the Serra do Ramalho karst area and belong to the rufescens/amazonica species group. The discovery of two additional and highly distinct species in the rufescens/amazonica group (L. carinhanha sp. n. and L. cardosoi sp. n.) increases the debate on the origin, evolution, and geographical distribution of this widely distributed group of recluse spiders in the New and Old World. The presence of three species (L. ericsoni sp. n., L. carinhanha sp. n., and L. cardosoi sp. n.) with marked differences in morphological characters in a relatively small area indicates that the region seems to be an important center for Loxosceles diversity, which remains poorly studied. [ABSTRACT FROM AUTHOR]

Published

2018

28. LESÃO DERMONECRÓTICA EM UM GATO ATRIBUÍDA A ENVENENAMENTO POR LOXOSCELES - RELATO DE CASO.

Author

DUARTE, K. O., BALLARDIN, L., VIEIRA, N. T., and TERRA, A. L. C.

Abstract

Accidents caused by spiders of the genus Loxosceles are important in the small animal clinic, even though there are no epidemiological data on these attacks in pets, given the severity of the lesion and possible systemic complications, it becomes necessary to know more about the species and the consequences of the poisoning. The present work reports the presence of a dermonecrotic lesion in a cat attributed to brown spider (Loxosceles sp). The patient had a necrotic lesion in the perineal region with fibrin and purulent secretion. The treatment consisted of using chlorhexidine for cleaning, hydrogel, sugar, Fitofix® and Dersani® as healing promoters. After one month of treatment, the animal showed a satisfactory improvement. [ABSTRACT FROM AUTHOR]

Published

2018

29. Highlights in the knowledge of brown spider toxins

Author

Daniele Chaves-Moreira, Andrea Senff-Ribeiro, Ana Carolina Martins Wille, Luiza Helena Gremski, Olga Meiri Chaim, and Silvio Sanches Veiga

Subjects

Brown spider, Loxosceles, Venom, Toxins, Loxoscelism, Phospholipase-D, Metalloprotease, Insecticidal peptides, Serineprotease, Hyaluronidase, Arctic medicine. Tropical medicine, RC955-962, Toxicology. Poisons, RA1190-1270, Zoology, QL1-991

Abstract

Abstract Brown spiders are venomous arthropods that use their venom for predation and defense. In humans, bites of these animals provoke injuries including dermonecrosis with gravitational spread of lesions, hematological abnormalities and impaired renal function. The signs and symptoms observed following a brown spider bite are called loxoscelism. Brown spider venom is a complex mixture of toxins enriched in low molecular mass proteins (4–40 kDa). Characterization of the venom confirmed the presence of three highly expressed protein classes: phospholipases D, metalloproteases (astacins) and insecticidal peptides (knottins). Recently, toxins with low levels of expression have also been found in Loxosceles venom, such as serine proteases, protease inhibitors (serpins), hyaluronidases, allergen-like toxins and histamine-releasing factors. The toxin belonging to the phospholipase-D family (also known as the dermonecrotic toxin) is the most studied class of brown spider toxins. This class of toxins single-handedly can induce inflammatory response, dermonecrosis, hemolysis, thrombocytopenia and renal failure. The functional role of the hyaluronidase toxin as a spreading factor in loxoscelism has also been demonstrated. However, the biological characterization of other toxins remains unclear and the mechanism by which Loxosceles toxins exert their noxious effects is yet to be fully elucidated. The aim of this review is to provide an insight into brown spider venom toxins and toxicology, including a description of historical data already available in the literature. In this review article, the identification processes of novel Loxosceles toxins by molecular biology and proteomic approaches, their biological characterization and structural description based on x-ray crystallography and putative biotechnological uses are described along with the future perspectives in this field.

Published

2017

30. TCTP from Loxosceles Intermedia (Brown Spider) Venom Contributes to the Allergic and Inflammatory Response of Cutaneous Loxoscelism

Author

Marianna Boia-Ferreira, Kamila G. Moreno, Alana B. C. Basílio, Lucas P. da Silva, Larissa Vuitika, Bruna Soley, Ana Carolina M. Wille, Lucélia Donatti, Katia C. Barbaro, Olga M. Chaim, Luiza Helena Gremski, Silvio S. Veiga, and Andrea Senff-Ribeiro

Subjects

loxosceles, brown spider, tctp, venom, toxin, hrf, Cytology, QH573-671

Abstract

LiTCTP is a toxin from the Translationally Controlled Tumor Protein (TCTP) family identified in Loxosceles brown spider venoms. These proteins are known as histamine-releasing factors (HRF). TCTPs participate in allergic and anaphylactic reactions, which suggest their potential role as therapeutic targets. The histaminergic effect of TCTP is related to its pro-inflammatory functions. An initial characterization of LiTCTP in animal models showed that this toxin can increase the microvascular permeability of skin vessels and induce paw edema in a dose-dependent manner. We evaluated the role of LiTCTP in vitro and in vivo in the inflammatory and allergic aspects that undergo the biological responses observed in Loxoscelism, the clinical condition after an accident with Loxosceles spiders. Our results showed LiTCTP recombinant toxin (LiRecTCTP) as an essential synergistic factor for the dermonecrotic toxin actions (LiRecDT1, known as the main toxin in the pathophysiology of Loxoscelism), revealing its contribution to the exacerbated inflammatory response clinically observed in envenomated patients.

Published

2019

31. Brown Spider (Loxosceles) Venom Toxins as Potential Biotools for the Development of Novel Therapeutics

Author

Daniele Chaves-Moreira, Fernando Hitomi Matsubara, Zelinda Schemczssen-Graeff, Elidiana De Bona, Vanessa Ribeiro Heidemann, Clara Guerra-Duarte, Luiza Helena Gremski, Carlos Chávez-Olórtegui, Andrea Senff-Ribeiro, Olga Meiri Chaim, Raghuvir Krishnaswamy Arni, and Silvio Sanches Veiga

Subjects

brown spider, venom, Loxosceles, toxins, biotools, drug targets, novel therapeutics, Medicine

Abstract

Brown spider envenomation results in dermonecrosis with gravitational spreading characterized by a marked inflammatory reaction and with lower prevalence of systemic manifestations such as renal failure and hematological disturbances. Several toxins make up the venom of these species, and they are mainly peptides and proteins ranging from 5−40 kDa. The venoms have three major families of toxins: phospholipases-D, astacin-like metalloproteases, and the inhibitor cystine knot (ICK) peptides. Serine proteases, serpins, hyaluronidases, venom allergens, and a translationally controlled tumor protein (TCTP) are also present. Toxins hold essential biological properties that enable interactions with a range of distinct molecular targets. Therefore, the application of toxins as research tools and clinical products motivates repurposing their uses of interest. This review aims to discuss possibilities for brown spider venom toxins as putative models for designing molecules likely for therapeutics based on the status quo of brown spider venoms. Herein, we explore new possibilities for the venom components in the context of their biochemical and biological features, likewise their cellular targets, three-dimensional structures, and mechanisms of action.

Published

2019

32. Acidente por picada de Aranha Marrom - Loxosceles: um relato de caso no Distrito Federal

Author

Pauline Nallim Lobão, Thiago de Paula Coimbra, Caio César Lima, and Bianca Casarotto Lima Faria

Subjects

Brown spider, medicine.medical_specialty, medicine.anatomical_structure, Groin, business.industry, medicine, medicine.symptom, Genus Loxosceles, business, Trunk, Rash, Dermatology

Abstract

Mais conhecida como aranha marrom, o aracnídeo do gênero Loxosceles pode ser encontrado por todo país, porém é mais presente na região sul. São animais não agressivos e de hábitos noturnos que geralmente picam quando comprimidas contra o corpo. Devido a tal característica as picadas geralmente acontecem ao dormir ou vestir roupas e em locais cobertos como raiz da coxa e tronco. A picada do aracnídeo tem como característica ser indolor, por isso muitas vezes não são percebidas pelo paciente. Os sintomas são predominantemente locais e se iniciam lenta e progressivamente de 24-72 horas após a picada. Os mais comuns são o rash, dor e edema.

Published

2021

33. Lymphedema as Consequence of Loxosceles Brown Spider Bite: A Case Report and Literature Review

Author

Luis E L Lopez Montoya, Maria T Zarate-Sánchez, K. Gabriela Saenz-Ramirez, Joceline Sandoval-Aguirre, and Angel L. Montoya

Subjects

spider bite, violinist spider, secondary lymphedema, lymphedema, loxosceles, brown spider

Abstract

protein edema of the limbs, this may be caused due to the damage or obstruction of lymphatic structures; complications associated with loxosceles spider bite may cause damage to the lymphatic system. Objective: To describe the clinical case of a patient with lower extremity lymphedema secondary to loxosceles' spider bite complications and to present a literature review on the topic. Case Presentation: A 24-year-old man received previous medical attention between 2020-and 2021 due to complications of a loxosceles brown spider bite. He arrived at our facilities in January 2022 to assess his case related to progressive volume leg increase and a chronic wound in the bitten site. After the clinical history analysis, physical examination, and a near-infrared lymphography study of the leg, damage to lymphatic structures was identified; secondary lymphedema was confirmed. It was possible to reverse and control the lymphedema volume and the wound evolved to complete closure. The case is presented along with a literature review on the topic. Conclusion: It is presented a case of lymphedema associated with a loxosceles brown spider bite, and successfully treated. Lymphedema related to a loxosceles spider bite and its complications is a clinical reality that might be underrecognized by scientific literature and clinicians; this condition should be properly studied and considered with adequate assessment strategies in patients after suffering the spider bite in extremities, especially in the mid and long-term.

Published

2022

34. Insecticidal activity of a recombinant knottin peptide from Loxosceles intermedia venom and recognition of these peptides as a conserved family in the genus.

Author

Matsubara, F. H., Meissner, G. O., Herzig, V., Justa, H. C., Dias, B. C. L., Trevisan‐Silva, D., Gremski, L. H., Gremski, W., Senff‐Ribeiro, A., Chaim, O. M., King, G. F., and Veiga, S. S.

Subjects

*LOXOSCELES, *PEPTIDES, *GLYCOPROTEINS, *VENOM glands, *ESCHERICHIA coli

Abstract

Loxosceles intermedia venom comprises a complex mixture of proteins, glycoproteins and low molecular mass peptides that act synergistically to immobilize envenomed prey. Analysis of a venom-gland transcriptome from L. intermedia revealed that knottins, also known as inhibitor cystine knot peptides, are the most abundant class of toxins expressed in this species. Knottin peptides contain a particular arrangement of intramolecular disulphide bonds, and these peptides typically act upon ion channels or receptors in the insect nervous system, triggering paralysis or other lethal effects. Herein, we focused on a knottin peptide with 53 amino acid residues from L. intermedia venom. The recombinant peptide, named U2-sicaritoxin-Li1b (Li1b), was obtained by expression in the periplasm of Escherichia coli. The recombinant peptide induced irreversible flaccid paralysis in sheep blowflies. We screened for knottin-encoding sequences in total RNA extracts from two other Loxosceles species, Loxosceles gaucho and Loxosceles laeta, which revealed that knottin peptides constitute a conserved family of toxins in the Loxosceles genus. The insecticidal activity of U2-SCTX-Li1b, together with the large number of knottin peptides encoded in Loxosceles venom glands, suggests that studies of these venoms might facilitate future biotechnological applications of these toxins. [ABSTRACT FROM AUTHOR]

Published

2017

35. Partial characterization of Loxosceles anomala (Mello-Leitão, 1917) venom: A brown spider of potential medical concern.

Author

Peres-Damásio, Pamella, Silva-Magalhães, Rafaela, Silva-Araújo, Ana Luiza, Pereira, Elaine Henriques Teixeira, Silveira, Adriano Lima, Varella, Luana Silveira da Rocha Nowicki, Borges, Márcia Helena, Chavez-Olórtegui, Carlos, Paiva, Ana Luiza Bittencourt, and Guerra-Duarte, Clara

Subjects

*SPIDER venom, *VENOM, *LOXOSCELES, *ANTIVENINS, *PHOSPHOLIPASES, *SPHINGOMYELINASE, *IMMUNE recognition, *SPIDERS

Abstract

The spider's genus Loxosceles (also known as "brown spiders") is one of the few ones of medical importance in Brazil, being Loxosceles anomala a species of common occurrence in the Southeast region. This species is usually smaller in size than the other members of the Loxosceles group. A single human accident involving L. anomala was reported to date and the clinical picture shared similar characteristics with accidents caused by other Loxosceles species. Despite the potential relevance of L. anomalafor loxocelism in Minas Gerais state, its venom activity has never been characterized. In this work, we provide a preliminary characterization of L. anomala venom, considering its most relevant enzymatic activities and its venom immunorecognition by current therapeutic antivenoms. The results showed that L. anomala venom is immunorecognised by therapeutic antivenoms and by anti-phospholipase D antibodies. Its venom also shows enzymatic activities (sphingomyelinase activity, fibrinogenolytic) described for other Loxosceles venoms. This work contributes to a better knowledge on the venom content and activities of synanthropic Loxosceles species that have the potential of causing relevant human accidents. [Display omitted] • Loxosceles anomala is a synanthropic spider original from Minas Gerais State, Brazil. • L. anomala venom is recognized by anti-loxoscelic, anti-arachnidic and anti-phospholipase-D antibodies. • L. anomala venom presented sphingomyelinase-D and fibrinogenolytic activities. • Due to its life habits and venom activities, L. anomala spiders can potentially cause significant human accidents. [ABSTRACT FROM AUTHOR]

Published

2023

36. From taxonomy to molecular characterization of brown spider venom: An overview focused on Loxosceles similis

Author

Clara Guerra-Duarte, Ray van der Veer, Hortênsia Gomes Leal, Bárbara Bruna Ribeiro de Oliveira-Mendes, Evanguedes Kalapothakis, Priscila Mendes Gonçalves, Carolina Campolina Rebello Horta, Maria Chatzaki, Thais Soares da Silva, Douglas Ferreira Sales-Medina, and Gabriela Lago Biscoto

Subjects

Spider, Phosphoric Diester Hydrolases, Spider Venoms, Zoology, Spiders, Venom, Biology, Toxicology, Loxosceles similis, medicine.disease, biology.organism_classification, Loxosceles venom, Loxoscelism, Brown spider, Spider Bites, medicine, Animals, Taxonomy (biology), Sicariidae, Brazil

Abstract

Loxosceles spp. (Araneae, Sicariidae), known as brown spiders, are distributed in temperate and tropical regions worldwide. Accidents caused by these spiders are known as loxoscelism and constitute a public health problem, especially in Brazil. The present review describes the taxonomy, distribution, and ecological profile of brown spiders, as well as the molecular and biochemical aspects of Loxosceles venom. Additionally, it presents an overview on L. similis, a species found in the Southeastern region of Brazil. In this region, the number of Loxosceles accidents has been increasing in the past few years, thus calling attention to its raising importance as a medically relevant spider species in Brazil.

Published

2020

37. Effects of the Theranekron®'an alcoholic extract of the Tarantula cubensis' on hematology and serum biochemical properties in horses

Author

Kamran Sardari, Mehrdad Mohri, Sadaf Sabzevari, and Behrooz Fathi

Subjects

brown spider, venom, horse, theranekron, tarantula cubensis, Veterinary medicine, SF600-1100

Abstract

Theranekron®is commercially available, alcoholic extract of the tarantula cubensis(brown spider).Ten healthy thoroughbred mare racehorses were used at the present study. Blood samples were taken 30 minutes before and 8, 24, 48, 72 and 168h aftersubcutaneousadministration of 10ml Theranekron (1mg/48kg or 0.02mg/kgbw) via a jugular catheter. The results of this study showed that sampling time had a significant effects on the amount of PCV, hemoglobin concentration, RBC number, total protein, albumin, glucose, cholesterol, BUN, creatinine, bilirubin, activity of ALT, and ALP (p0.05). In conclusion, most of the observed changes in hematological and serum biochemical parameters were statistically and not clinically significant. Thus it seems that administration of Theranekron has no adverse reaction in experimental horses.

Published

2011

38. Brown Spider (Loxosceles genus) Venom Toxins: Tools for Biological Purposes

Author

Andrea Senff-Ribeiro, Silvio Sanches Veiga, Luiza Helena Gremski, Waldemiro Gremski, Rafael Bertoni da Silveira, Oldemir Carlos Mangili, Valéria Pereira Ferrer, Fernando Hitomi Matsubara, Daniele Chaves-Moreira, Ana Carolina M. Wille, Dilza Trevisan-Silva, and Olga Meiri Chaim

Subjects

Loxosceles, brown spider, venom, recombinant toxins, biotechnological applications, Medicine

Abstract

Venomous animals use their venoms as tools for defense or predation. These venoms are complex mixtures, mainly enriched of proteic toxins or peptides with several, and different, biological activities. In general, spider venom is rich in biologically active molecules that are useful in experimental protocols for pharmacology, biochemistry, cell biology and immunology, as well as putative tools for biotechnology and industries. Spider venoms have recently garnered much attention from several research groups worldwide. Brown spider (Loxosceles genus) venom is enriched in low molecular mass proteins (5–40 kDa). Although their venom is produced in minute volumes (a few microliters), and contain only tens of micrograms of protein, the use of techniques based on molecular biology and proteomic analysis has afforded rational projects in the area and permitted the discovery and identification of a great number of novel toxins. The brown spider phospholipase-D family is undoubtedly the most investigated and characterized, although other important toxins, such as low molecular mass insecticidal peptides, metalloproteases and hyaluronidases have also been identified and featured in literature. The molecular pathways of the action of these toxins have been reported and brought new insights in the field of biotechnology. Herein, we shall see how recent reports describing discoveries in the area of brown spider venom have expanded biotechnological uses of molecules identified in these venoms, with special emphasis on the construction of a cDNA library for venom glands, transcriptome analysis, proteomic projects, recombinant expression of different proteic toxins, and finally structural descriptions based on crystallography of toxins.

Published

2011

39. Diagnosis of the occurrence of the genus Loxosceles Heineken and Lowe, 1832 (Araneae, Sicariidae) in the municipal district of União da Vitória, Paraná.

Author

Marta Luciane Fischer, Sergio Bazilio, Thalita Verginia Batista dos Santos, and Cristina Brandes Grosskopf

Subjects

anthropic environment, synanthropic fauna, brown spider, Loxosceles intermedia, loxoscelism, Science, Biology (General), QH301-705.5

Abstract

This paper aims to carry out a comparative evaluation of the populations of Loxosceles spp. (brown spiders) found in the municipal district of União da Vitória, Paraná. Natural and anthropic substrata were inspected in the intra- and peridomicile in urban and rural areas. Loxosceles intermedia Mello-Leitão, 1934 was present in 57% of the residences. It was not randomly distributed among the neighborhoods or the substrata and was less frequent than other species of spiders found in the same habitats. The few records of loxoscelism may be due to the small population of brown spiders in domestic habitats. Notwithstanding the seemingly adequate climatic and substratic conditions, the population growth of L. intermedia might be limited by the presence of other species inside and around houses.

Published

2009

40. Molecular cloning and in silico characterization of knottin peptide, U2-SCRTX-Lit2, from brown spider ( Loxosceles intermedia) venom glands.

Author

Meissner, Gabriel, Resende Lara, Pedro, Scott, Luis, Braz, Antônio, Chaves-Moreira, Daniele, Matsubara, Fernando, Soares, Eduardo, Trevisan-Silva, Dilza, Gremski, Luiza, Veiga, Silvio., and Chaim, Olga

Subjects

*MOLECULAR cloning, *LOXOSCELIDAE, *PEPTIDES, *VENOM glands, *MOLECULAR dynamics, *CYSTEINE

Abstract

Inhibitor cystine knots (ICKs) are a family of structural peptides with a large number of cysteine residues that form intramolecular disulfide bonds, resulting in a knot. These peptides are involved in a variety of biological functions including predation and defense, and are found in various species, such as spiders, scorpions, sea anemones, and plants. The Loxosceles intermedia venom gland transcriptome identified five groups of ICK peptides that represent more than 50 % of toxin-coding transcripts. Here, we describe the molecular cloning of U2-Sicaritoxin-Lit2 (U2-SCRTX-Lit2), bioinformatic characterization, structure prediction, and molecular dynamic analysis. The sequence of U2-SCRTX-Lit2 obtained from the transcriptome is similar to that of μ-Hexatoxin-Mg2, a peptide that inhibits the insect Na channel. Bioinformatic analysis of sequences classified as ICK family members also showed a conservation of cysteine residues among ICKs from different spiders, with the three dimensional molecular model of U2-SCRTX-Lit2 similar in structure to the hexatoxin from μ-hexatoxin-Mg2a. Molecular docking experiments showed the interaction of U2-SCRTX-Lit2 to its predictable target-the Spodoptera litura voltage-gated sodium channel (SlNaVSC). After 200 ns of molecular dynamic simulation, the final structure of the complex showed stability in agreement with the experimental data. The above analysis corroborates the existence of a peptide toxin with insecticidal activity from a novel ICK family in L. intermedia venom and demonstrates that this peptide targets Na channels. [ABSTRACT FROM AUTHOR]

Published

2016

41. Insights into brown spider and loxoscelism

Author

MH Appel, R Bertoni da Silveira, W Gremski, and SS Veiga

Subjects

brown spider, loxoscelism, venom, recombinant toxins, dermonecrosis, Biology (General), QH301-705.5

Abstract

Loxosceles is a genus of cosmopolitan spiders comprising several species, and popularly knownas brown spiders or brown recluses. Brown spider bites can cause dermonecrotic lesions andsystemic reactions known as loxoscelism. Systemic effects are less common but may be severe oreven fatal in some patients. Systemic manifestations include intravascular hemolysis, disseminatedintravascular coagulation and acute renal failure. A rapid diagnosis and an understanding of thevenom’s molecular activity are crucial for satisfactory treatment. Mechanisms by which venoms exerttheir deleterious effects are under investigation, and searches are underway for diagnosticenvenomation assays. Molecular biology is being used to produce quantities of several of the mostimportant venom molecules and has contributed to the study and understanding of their mechanismsof action.

Published

2005

42. Extracellular matrix molecules as targets for brown spider venom toxins

Author

S.S. Veiga, V.C. Zanetti, A. Braz, O.C. Mangili, and W. Gremski

Subjects

brown spider, venom, extracellular matrix, proteolytic effect, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Loxoscelism, the term used to describe lesions and clinical manifestations induced by brown spider's venom (Loxosceles genus), has attracted much attention over the last years. Brown spider bites have been reported to cause a local and acute inflammatory reaction that may evolve to dermonecrosis (a hallmark of envenomation) and hemorrhage at the bite site, besides systemic manifestations such as thrombocytopenia, disseminated intravascular coagulation, hemolysis, and renal failure. The molecular mechanisms by which Loxosceles venoms induce injury are currently under investigation. In this review, we focused on the latest reports describing the biological and physiopathological aspects of loxoscelism, with reference mainly to the proteases recently described as metalloproteases and serine proteases, as well as on the proteolytic effects triggered by L. intermedia venom upon extracellular matrix constituents such as fibronectin, fibrinogen, entactin and heparan sulfate proteoglycan, besides the disruptive activity of the venom on Engelbreth-Holm-Swarm basement membranes. Degradation of these extracellular matrix molecules and the observed disruption of basement membranes could be related to deleterious activities of the venom such as loss of vessel and glomerular integrity and spreading of the venom toxins to underlying tissues.

Published

2001

43. Prospective Use of Brown Spider Venom Toxins as Therapeutic and Biotechnological Inputs

Author

Ana Carolina Martins Wille, Pedro Henrique de Caires Schluga, João Carlos Minozzo, Luiza Helena Gremski, Nayanne Louise Costacurta Polli, Andrea Senff-Ribeiro, Silvio Sanches Veiga, Hanna Câmara da Justa, Bruno Cesar Antunes, and Fernando Hitomi Matsubara

Subjects

0301 basic medicine, QH301-705.5, venom, Venom, Review, Serpin, Biology, recombinant proteins, complex mixtures, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, law.invention, Microbiology, 03 medical and health sciences, Antigen, Renal injury, law, medicine, Molecular Biosciences, Biology (General), Molecular Biology, 030102 biochemistry & molecular biology, medicine.disease, proteins, Loxoscelism, Brown spider, 030104 developmental biology, peptides, Recombinant DNA, Genus Loxosceles, Loxosceles

Abstract

Brown spider (genus Loxosceles) venoms are mainly composed of protein toxins used for predation and defense. Bites of these spiders most commonly produce a local dermonecrotic lesion with gravitational spread, edema and hemorrhage, which together are defined as cutaneous loxoscelism. Systemic loxoscelism, such as hematological abnormalities and renal injury, are less frequent but more lethal. Some Loxosceles venom toxins have already been isolated and extensively studied, such as phospholipases D (PLDs), which have been recombinantly expressed and were proven to reproduce toxic activities associated to the whole venom. PLDs have a notable potential to be engineered and converted in non-toxic antigens to produce a new generation of antivenoms or vaccines. PLDs also can serve as tools to discover inhibitors to be used as therapeutic agents. Other Loxosceles toxins have been identified and functionally characterized, such as hyaluronidases, allergen factor, serpin, TCTP and knottins (ICK peptides). All these toxins were produced as recombinant molecules and are biologically active molecules that can be used as tools for the potential development of chemical candidates to tackle many medical and biological threats, acting, for instance, as antitumoral, insecticides, analgesic, antigens for allergy tests and biochemical reagents for cell studies. In addition, these recombinant toxins may be useful to develop a rational therapy for loxoscelism. This review summarizes the main candidates for the development of drugs and biotechnological inputs that have been described in Brown spider venoms.

Published

2021

44. Brown spider (Loxosceles genus) venom toxins: Evaluation of biological conservation by immune cross-reactivity.

Author

Buch, Daniela Regina, Souza, Fernanda Nunes, Meissner, Gabriel Otto, Morgon, Adriano Marcelo, Gremski, Luiza Helena, Ferrer, Valéria Pereira, Trevisan-Silva, Dilza, Matsubara, Fernando Hitomi, Boia-Ferreira, Mariana, Sade, Youssef Bacila, Chaves-Moreira, Daniele, Gremski, Waldemiro, Veiga, Silvio Sanches, Chaim, Olga Meiri, and Senff-Ribeiro, Andrea

Subjects

*LOXOSCELIDAE, *INSECT venom, *SPIDER bites, *CROSS reactions (Immunology), *SEROTHERAPY, *IMMUNE serums, *IMMUNOASSAY, *DIAGNOSIS, *THERAPEUTICS

Abstract

Loxosceles spiders are responsible for serious human envenomations worldwide. The collection of symptoms found in victims after accidents is called loxoscelism and is characterized by two clinical conditions: cutaneous loxoscelism and systemic loxocelism. The only specific treatment is serum therapy, in which an antiserum produced with Loxosceles venom is administered to the victims after spider accidents. Our aim was to improve our knowledge, regarding the immunological relationship among toxins from the most epidemiologic important species in Brazil ( Loxosceles intermedia , Loxosceles gaucho and Loxosceles laeta ). Immunoassays using spider venoms and L. intermedia recombinant toxins were performed and their cross-reactivity assessed. The biological conservation of the main Loxosceles toxins (Phospholipases-D, Astacin-like metalloproteases, Hyaluronidase, ICK-insecticide peptide and TCTP-histamine releasing factor) were investigated. An in silico analysis of the putative epitopes was performed and is discussed on the basis of the experimental results. Our data is an immunological investigation in light of biological conservation throughout the Loxosceles genus. The results bring out new insights on brown spider venom toxins for study, diagnosis and treatment of loxoscelism and putative biotechnological applications concerning immune conserved features in the toxins. [ABSTRACT FROM AUTHOR]

Published

2015

45. Characterization of Brown spider (Loxosceles intermedia) hemolymph: Cellular and biochemical analyses.

Author

Bednaski, A.V., Trevisan-Silva, D., Matsubara, F.H., Boia-Ferreira, M., Olivério, M.M., Gremski, L.H., Cavalheiro, R.P., De Paula, D.M.B., Paredes-Gamero, E.J., Takahashi, H.K., Toledo, M.S., Nader, H.B., Veiga, S.S., Chaim, O.M., and Senff-Ribeiro, A.

Subjects

*LOXOSCELIDAE, *HEMOLYMPH, *BIOCHEMICAL models, *MASS spectrometers, *LOXOSCELES, *ANTIBACTERIAL agents

Abstract

This is the first study on the hemolymph from a spider of the Loxosceles genus. These animals are responsible for a great number of envenomation cases worldwide. Several studies on Loxosceles venoms have been published, and the knowledge about the venom and its toxins is considerable, not only regarding the biological and biochemical characterization, but also regarding structural, genetic and phylogenetic approaches. However, the literature on Loxosceles hemolymph is nonexistent. The main goal of the present study was to characterize biochemically the hemolymph content, and especially, to identify its different hemocytes. Moreover, many papers have already shown molecules whose source is the hemolymph and their very interesting activities and biomedical applications, for example, antifungal and antibacterial activities. A 2D-SDS-PAGE of brown spider hemolymph showed approximately 111 spots for pH 3–10 and 150 spots for pH 4–7. A lectin-blotting assay showed that hemolymph carbohydrate residues were similar to those found in venom. Several types of TAG and DAG phospholipids were found in the hemolymph and characterized by HPTLC and mass spectrometry. Four different hemocytes were characterized in Loxosceles intermedia hemolymph: prohemocyte, plasmatocyte, granulocyte and adipohemocyte. This paper opens new possibilities on toxinology, studying an unknown biological material, and it characterizes a source of molecules with putative biotechnological applications. [ABSTRACT FROM AUTHOR]

Published

2015

46. Acute Generalized Exanthematous Pustulosis (AGEP) Triggered by a Spider Bite

Author

Michael Makris, Nektaria Spanoudaki, Fani Giannoula, Caterina Chliva, Anastasia Antoniadou, and Dimitrios Kalogeromitros

Subjects

acute generalized exanthematus pustulosis, brown spider, insect venom, loxosceles rufescens, spider bite, Immunologic diseases. Allergy, RC581-607

Abstract

Background: Acute generalized exanthematous pustulosis (AGEP) is a rare and severe cutaneous reaction usually triggered by drugs. Other causative factors such as viral infections are rarely involved. In this study, we report a case of AGEP caused by a spider bite. Case Summary: A 56-year-old woman was referred to the allergy unit after a spider bite at the left popliteal fossa, while gardening, 5 days earlier. The offending spider was captured and identified by an entomologist as belonging to the Loxosceles rufescens species. No acute reaction was observed; however, after 24 hours, due to the occurrence of typical dermonecrotic skin lesions associated with erythema and edema, Cefuroxime and Clindamycin were administered intramuscularly after medical advice was given. Almost 72 hours after the spider bite, an erythematous and partly edematous eruption appeared locally in the gluteus area bilaterally, which progressively expanded to the trunk, arms and femors. Within 24 hours dozens of small, pinhead sized, non- follicular pustules were present, mainly in the folds. The patient complained of a burning sensation of the skin in addition to pruritus; and simultaneously had a fever of 38-39 °C as the eruption expanded. Discussion: A spider bite may represent a possible causative factor of AGEP. A spider's venom contains sphingomyelinase that stimulates the release of IL8 and GM-CSF, which are involved in AGEP pathogenesis. Whether or not the con-current use of antibiotics has an effect in AGEP appearance when combined with a spider's venom, cannot be excluded.

Published

2009

47. Recent advances in the understanding of brown spider venoms: From the biology of spiders to the molecular mechanisms of toxins.

Author

Gremski, Luiza Helena, Trevisan-Silva, Dilza, Ferrer, Valéria Pereira, Matsubara, Fernando Hitomi, Meissner, Gabriel Otto, Wille, Ana Carolina Martins, Vuitika, Larissa, Dias-Lopes, Camila, Ullah, Anwar, de Moraes, FÃÂ!bio Rogério, ChÃÂ!vez-OlÃÂ3rtegui, Carlos, Barbaro, Katia Cristina, Murakami, Mario Tyago, Arni, Raghuvir Krishnaswamy, Senff-Ribeiro, Andrea, Chaim, Olga Meiri, and Veiga, Silvio Sanches

Subjects

*LOXOSCELIDAE, *SPIDER venom, *TOXINS, *SPIDER bites, *HEMOLYSIS & hemolysins, *TUMOR proteins, *THROMBOCYTOPENIA, *ACUTE kidney failure

Abstract

Abstract: The Loxosceles genus spiders (the brown spiders) are encountered in all the continents, and the clinical manifestations following spider bites include skin necrosis with gravitational lesion spreading and occasional systemic manifestations, such as intravascular hemolysis, thrombocytopenia and acute renal failure. Brown spider venoms are complex mixtures of toxins especially enriched in three molecular families: the phospholipases D, astacin-like metalloproteases and Inhibitor Cystine Knot (ICK) peptides. Other toxins with low level of expression also present in the venom include the serine proteases, serine protease inhibitors, hyaluronidases, allergen factors and translationally controlled tumor protein (TCTP). The mechanisms by which the Loxosceles venoms act and exert their noxious effects are not fully understood. Except for the brown spider venom phospholipase D, which causes dermonecrosis, hemolysis, thrombocytopenia and renal failure, the pathological activities of the other venom toxins remain unclear. The objective of the present review is to provide insights into the brown spider venoms and loxoscelism based on recent results. These insights include the biology of brown spiders, the clinical features of loxoscelism and the diagnosis and therapy of brown spider bites. Regarding the brown spider venom, this review includes a description of the novel toxins revealed by molecular biology and proteomics techniques, the data regarding three-dimensional toxin structures, and the mechanism of action of these molecules. Finally, the biotechnological applications of the venom components, especially for those toxins reported as recombinant molecules, and the challenges for future study are discussed. [Copyright &y& Elsevier]

Published

2014

48. Forty Years of the Description of Brown Spider Venom Phospholipases-D

Author

João Carlos Minozzo, Thaís Pereira da Silva, Andrea Senff-Ribeiro, Bruno Cesar Antunes, Ana Carolina Martins Wille, Nayanne Louise Costacurta Polli, Luiza Helena Gremski, Hanna Câmara da Justa, Silvio Sanches Veiga, and Raghuvir K. Arni

Subjects

Proteomics, Molecular composition, Health, Toxicology and Mutagenesis, lcsh:Medicine, Spider Venoms, venom, Venom, Review, Phospholipase, Biology, Toxicology, History, 21st Century, Catalysis, 03 medical and health sciences, Spider Bites, medicine, Phospholipase D, Animals, Humans, 030304 developmental biology, Genetics, 0303 health sciences, Phosphoric Diester Hydrolases, lcsh:R, 030302 biochemistry & molecular biology, History, 20th Century, medicine.disease, brown spider, Loxoscelism, Recombinant Proteins, phospholipases-D, Brown spider, biochemical and biological activities, Genus Loxosceles

Abstract

Spiders of the genus Loxosceles, popularly known as Brown spiders, are considered a serious public health issue, especially in regions of hot or temperate climates, such as parts of North and South America. Although the venoms of these arachnids are complex in molecular composition, often containing proteins with distinct biochemical characteristics, the literature has primarily described a family of toxins, the Phospholipases-D (PLDs), which are highly conserved in all Loxosceles species. PLDs trigger most of the major clinical symptoms of loxoscelism i.e., dermonecrosis, thrombocytopenia, hemolysis, and acute renal failure. The key role played by PLDs in the symptomatology of loxoscelism was first described 40 years ago, when researches purified a hemolytic toxin that cleaved sphingomyelin and generated choline, and was referred to as a Sphingomyelinase-D, which was subsequently changed to Phospholipase-D when it was demonstrated that the enzyme also cleaved other cellular phospholipids. In this review, we present the information gleaned over the last 40 years about PLDs from Loxosceles venoms especially with regard to the production and characterization of recombinant isoforms. The history of obtaining these toxins is discussed, as well as their molecular organization and mechanisms of interaction with their substrates. We will address cellular biology aspects of these toxins and how they can be used in the development of drugs to address inflammatory processes and loxoscelism. Present and future aspects of loxoscelism diagnosis will be discussed, as well as their biotechnological applications and actions expected for the future in this field.

Published

2020

49. Production and Functional Evaluation of Anti- Loxosceles Sera Raised by Immunizations of Rabbits with Mutated Recombinant Phospholipases-D.

Author

Antunes BC, Polli NLC, Schluga PHC, Silva TPD, Wille ACM, Locatelli-Dittrich R, Souza GS, Matsubara FH, Minozzo JC, Senff-Ribeiro A, Gremski LH, and Veiga SS

Abstract

Loxoscelism is the clinical condition triggered after the bite of spiders of the genus Loxosceles . The main species involved in accidents in South America are L. intermedia , L. laeta, and L. gaucho . The only specific treatment is the anti- Loxosceles serum produced with crude venoms. As phospholipases D (PLDs) trigger most of the effects observed in accidents, we developed and evaluated second-generation sera using mutated PLDs as antigens. Three isoforms of PLDs with site-directed mutations without biological activities were used for rabbit immunizations: D32A-E34A ( L. gaucho ), W230A ( L. intermedia ) , and H12A-H47A ( L. laeta ). Sera were produced using crude venoms of three species of Loxosceles enriched with mutated recombinant PLDs (MIX) or using only mutated PLDs (REC). Immunizations stimulated the immune system from the second immunization with higher antibody production in the REC group. In vivo neutralization assays demonstrated that both sera reduced edema and dermonecrosis caused by Loxosceles intermedia crude venom. Follow-up of animals during the immunization protocols and in the neutralization assays demonstrated that the mutated proteins and the sera are safe. Results demonstrate the potential of using mutated recombinant PLDs in total or partial replacement of Loxosceles venoms in animal immunizations to produce anti- Loxosceles sera for treatments of Loxoscelism.

Published

2022

50. Systemic Loxoscelism, Less Frequent but More Deadly: The Involvement of Phospholipases D in the Pathophysiology of Envenomation.

Author

Gremski LH, da Justa HC, Polli NLC, Schluga PHC, Theodoro JL, Wille ACM, Senff-Ribeiro A, and Veiga SS

Subjects

Animals, Hemolysis, Phosphoric Diester Hydrolases toxicity, Protein Isoforms, Phospholipase D chemistry, Spider Venoms toxicity, Spider Venoms chemistry, Thrombocytopenia, Spiders chemistry, Spider Bites complications

Abstract

Bites of Loxosceles spiders can lead to a set of clinical manifestations called loxoscelism, and are considered a public health problem in many regions. The signs and symptoms of loxoscelism are divided into cutaneous and systemic forms. The former is more frequent and includes signs of envenoming at the bite site or neighboring regions. Systemic loxoscelism, although much less frequent, is associated with complications, and can even lead to death. It may include intravascular hemolysis, acute renal failure, and thrombocytopenia. Loxosceles venoms are enriched with phospholipases D (PLDs), which are a family of isoforms found at intra-species and inter-species levels. Under experimental conditions, these enzymes reproduce the main clinical signs of loxoscelism, including an exacerbated inflammatory response at the bite site and dermonecrosis, as well as thrombocytopenia, intravascular hemolysis, and acute renal failure. The role of PLDs in cutaneous loxoscelism was described over forty years ago, when studies identified and purified toxins featured as sphingomyelinase D. More recently, the production of recombinant PLDs and discoveries about their structure and mechanism has enabled a deeper characterization of these enzymes. In this review, we describe these biochemical and functional features of Loxosceles PLDs that determine their involvement in systemic loxoscelism.

Published

2022