First occurrence of feline sporotrichosis in a metropolitan area of Central-West Brazil

Ferreira, Mariana Almeida; Castilho, Allana de Paula; Vargas, Gabrielle Silveira; Patini, Bruna Elisa; Moreira, André Luís Elias; Santos, Jandra Pacheco dos; Xavier, Roseli Santos de Freitas; Del Negro, Gilda Maria Barbaro; Taborda, Carlos Pelleschi; Gremião, Isabella Dib; Ferreira Júnior, Álvaro

doi:10.1590/S1678-9946202466019

ABSTRACT

Sporotrichosis is a neglected mycosis that affects human and animal hosts, including domestic cats. In Brazil, its most frequently diagnosed etiological agent is Sporothrix brasiliensis. Zoonotic transmission of S. brasiliensis occurs via direct contact between an infected cat and a susceptible human host. Notification of confirmed cases of feline sporotrichosis is not mandatory in Brazil. The metropolitan area of Goiania city can be considered a silent area for the occurrence of feline sporotrichosis. In this context, voluntary reporting of feline sporotrichosis cases is recommended for all healthcare professionals. This study aimed to report the first occurrence of S. brasiliensis in a cat from the metropolitan area of Goiania city. Cytopathology, mycology, thermal dimorphism and calmodulin gene amplification tests were performed. The mycological and molecular biological diagnoses corresponded to S. brasiliensis. The etiological agent of zoonotic sporotrichosis was detected in the metropolitan area of Goiania city, and therefore there is a risk of the emergence of new cases of cats infected with S. brasiliensis and the occurrence of zoonotic transmission of this fungus.

KEYWORDS Subcutaneous mycosis; Feline sporotrichosis; Sporothrix schenckii complex

INTRODUCTION

Zoonotic sporotrichosis is a serious subcutaneous mycosis caused by Sporothrix species that affects mammals¹. Feline sporotrichosis is caused by Sporothrix brasiliensis, S. schenckii sensu stricto, S. globosa², S. humicola³, and S. pallida³,⁴, but S. brasiliensis holds the potential for zoonotic transmission of feline sporotrichosis⁵. S. brasiliensis is prevalent in South America, especially in Brazil, where the highest number of cases of feline sporotrichosis has been reported worldwide⁶. S. brasiliensis is associated with cat-to-human, cat-to-cat and cat-to-dog transmission⁷, and infection occurs mainly via scratches, bites, or contact with the exudate of cutaneous lesions⁸. The epicenter of this epidemic scenario is the metropolitan area of Rio de Janeiro city, where there has been a high incidence of feline sporotrichosis and zoonotic transmission to humans, which has spread to other states in Brazil⁹,¹⁰. Currently, cases of feline sporotrichosis have been reported in most states in the five regions of Brazil¹,¹⁰. On May 25, 2023, the Brazilian Ministry of Health published a technical note¹¹ with recommendations for the surveillance of animal sporotrichosis in Brazil, defining silent areas for sporotrichosis as those where transmission to humans and/or animals is unknown. This article reports the first confirmed diagnosis of feline sporotrichosis caused by S. brasiliensis in the metropolitan area of Goiania city, Goias State, located in the Central-West region of Brazil.

CASE REPORT

This report was approved by the Ethics Committee on Animal Use of the Federal University of Goias, under protocol Nº 068/22.

A one-year-old mixed-breed male cat, with short white coat and weighing 2 kg, was subjected to the trap-neuter-return (TNR) procedure in Aparecida de Goiania city (latitude 16° 49’ 23’’ South and longitude 49° 14’ 32’’ West). A clinical examination revealed multiple periocular ulcerated hemorrhagic skin lesions around the right eye (Figure 1) and a small skin lesion at the left ear margin. Biological samples collected from the lesions were sent to the FungiLab laboratory of the School of Veterinary Medicine of the Federal University of Goias in Goiania city, Goias State, Brazil, and to the Mycology Laboratory of the Institute of Tropical Medicine at the University of Sao Paulo, Sao Paulo State, Brazil. Diagnostic exams included cytology, mycology, thermal dimorphism, and polymerase chain reaction¹⁰,¹². Further tests to evaluate other pathologies could not be performed because the cat died before antifungal therapy could be started. The cause of death of this cat could not be determined. There was no evidence that the cat had bitten or scratched the veterinarian.

Figure 1
- Multiple ulcerated subcutaneous periocular lesions around the right eye and small ulcerated lesion on the left earlobe.

Cytological examination of the Giemsa-stained material revealed numerous cigar-shaped basophilic yeast elements with a clear border, located within the macrophage cytoplasm and extracellularly, with a presumptive diagnosis of feline sporotrichosis (Figure 2). Exudate from the lesion was then cultured on Mycosel agar at 26 °C for 14 days. The isolated fungus was glabrous, with a velutinous light beige surface and brown color on the underside. The micromorphology of an isolate obtained after 14 days at 26 °C on potato dextrose agar revealed mycelial structures with hyaline, septate and thin hyphae. A conidiogenous cell emerged from the vegetative hyphae at right angles, with teardrop-shaped hyaline conidia emerging from its terminal, forming a rosette-like apical conidial conformation. Pigmented sessile conidia emerged directly from the vegetative hyphae. Thermal dimorphism was confirmed after culturing the mycelium on brain-heart infusion agar (Becton, Dickinson and Company, Heidelberg, Germany) for 14 days at 37 °C in the dark. The identity of the Sporothrix isolate was verified by polymerase chain reaction (species-specific PCR)¹³. DNA from the mycelial form of the Sporothrix isolate was extracted¹³ and subjected to partial sequencing of the calmodulin-encoding gene¹³, showing 99.5% of similarity to S. brasiliensis reference strains deposited in GenBank. A maximum likelihood phylogenetic analysis with 1,000 replication bootstrap was also performed using the MEGA software (version 11.0, Pennsylvania State University, Pennsylvania, USA) (Figure 3)¹²,¹³. The clinical and laboratory findings confirmed that the pathogenic fungus was S. brasiliensis. This case was reported by voluntary notification on the REDCap website of the Brazilian Ministry of Health. This is the first report of S. brasiliensis in the metropolitan area of Goiania city, in the Goias State, Brazil.

Figure 2
Giemsa-stained extracellular cigar-shaped yeast-like elements at 400x magnification.

Figure 3
Phylogenetic analysis using the Kimura 2 parameter model with 1000 bootstrap replicates performed in MEGA 11.0, based on the partial calmodulin-encoding gene. The sequence of the feline isolate was compared with the sequences of S. brasiliensis, S. schenckii and S. globosa reference strains from GenBank.

DISCUSSION

Sporothrix brasiliensis is highly prevalent in Brazil. Epizootics of feline sporotrichosis have been reported in the five regions of Brazil and in most states of the country¹⁰,¹⁴, and this epidemic continues to spread. In South America, cases of feline sporotrichosis have already crossed borders, with S. brasiliensis in Argentina and Chile. Moreover, cases of sporotrichosis caused by this fungus have been reported in the United Kingdom after Brazilians traveled to the UK with their cats and cat-to-human transmission occurred¹⁰,¹⁵-¹⁷. Garcia Duarte et al.¹⁸ reported two human cases of S. brasiliensis in Paraguay. The authors reported possible dissemination to other countries, as two Brazilians living in Paraguay acquired a cat from a region endemic for S. brasiliensis and the cat developed cutaneous sporotrichosis, revealed by classic mycological and histopathological diagnoses. The Goias State is far from the epicenters of sporotrichosis in the country, such as the Rio de Janeiro, Minas Gerais, Sao Paulo, Ceara and Rio Grande do Sul states¹⁰,¹⁴.

Stray cat colonies are common in the metropolitan areas of Brazilian municipalities⁹. The metropolitan area of Aparecida de Goiania has wooded parks and artificial lakes, which are public recreational spaces where people go to walk, play and bring their pets. It should also be noted that human food waste and water sources attract rodents, birds and stray cats¹⁹, making up the ideal conditions for the cultivation of Sporothrix. These include soil pH levels ranging from 3.5 to 9.5, average temperature of 26 °C, relative humidity ranging from 70% to 90%, and plant substrate in decomposition in the soil¹⁹. The combination of climatic and environmental conditions in the metropolitan area of Goiania city favors the life cycle of Sporothrix spp.¹⁹.

We confirm that cytopathology is an efficient method for screening feline sporotrichosis, as it revealed the presence of numerous cigar-shaped fungal elements and yeasts in the material collected from the cat⁸. The isolation of the pathogen from the collected material was relevant to the diagnosis, as it is the gold standard in sporotrichosis to identify macro- and micromorphological elements compatible with the organism being studied⁸. The calmodulin gene amplification performed in this study confirmed the mycological identification of S. brasiliensis.

After the diagnosis of sporotrichosis was made, the owner was contacted and informed that the cat had died, thus precluding the planned antifungal therapy. Animal sporotrichosis is a disease that can be treated with a daily dose of itraconazole (ITZ) alone or in combination with potassium iodide (KI), providing satisfactory therapeutic outcomes⁵,⁸. However, in cases of zoonotic infection refractory to ITZ plus KI therapy, intralesional liposomal amphotericin B can be used⁵,¹⁰. The criteria for cure remain clinical, with remission of all signs and maintenance of therapy for one month after clinical cure⁵. Euthanasia is not the first choice and should only be used when the animal has failed to respond to all therapeutic options and shows irreversible physical deterioration with no chance of recovery. Incineration of fungal elements in animal tissue is recommended to prevent contamination of vegetation and soil²⁰.

Subjecting free-roaming cats to the trap-neuter-return procedure provides the opportunity to diagnose animal sporotrichosis in silent areas, as was the case in Aparecida de Goiania city⁵. Continuous education of veterinarians and pet owners can prevent suspicious lesions suggestive of Sporothrix spp. and consequently anticipate mycological diagnosis and treatment⁵.

Animal sporotrichosis control programs require integrated actions by public authorities, private veterinary services, public health agencies, and citizens⁵. Mandatory reporting should be established to obtain data on animal sporotrichosis in each region. Given the infrastructural and economic vulnerability of the areas where animal sporotrichosis is commonly detected, free diagnosis and treatment would be the ideal way to contain the spread of this epidemic²⁰. Sporothrix brasiliensis is an emerging public health threat in Brazil⁷, and these findings should serve to sensitize veterinarians, cat owners, and public health agencies to prevent an outbreak of feline sporotrichosis in the Goias State, Brazil.

CONCLUSIONS

The fungus S. brasiliensis is currently circulating in the metropolitan area of Goiania city, Goias State, Brazil, and causing sporotrichosis in infected free-roaming cats in this region. A disease control program involving integrated actions by public authorities, private veterinary services, public health agencies, and citizens is needed to prevent the spread of this zoonosis.

REFERENCES

¹ Rodrigues AM, Hagen F, Camargo ZP. A spotlight on Sporothrix and sporotrichosis. Mycopathologia. 2022;187:407-11.
² Etchecopaz AN, Alava KH, Scarpa M, Duchene A, Re DG, Cuestas ML. Feline sporotrichosis due to Sporothrix globosa in the Metropolitan region of Buenos Aires: a case study. Rev Argent Microbiol. 2023 In Press.
³ Makri N, Paterson GK, Gregge F, Urquhart C, Nuttall T. First case report of cutaneous sporotrichosis (Sporothrix species) in a cat in the UK. JFSM Open Rep. 2020;6:2055116920906001.
⁴ Han HS, Kano R. Feline sporotrichosis in Asia. Braz J Microbiol. 2021;52:125-34.
⁵ Gremião ID, Rocha EM, Montenegro H, Carneiro AJ, Xavier MO, Farias MR, et al. Guideline for the management of feline sporotrichosis caused by Sporothrix brasiliensis and literature revision. Braz J Microbiol. 2021;52:107-24.
⁶ Gremião ID, Miranda LH, Reis EG, Rodrigues AM, Pereira SA. Zoonotic epidemic of sporotrichosis: cat to human transmission. PLoS Pathog. 2017;13:e1006077.
⁷ Rodrigues AM, Terra PP, Gremião ID, Pereira SA, Orofino-Costa R, Camargo ZP. The threat of emerging and re-emerging pathogenic Sporothrix species. Mycopathologia. 2020;185:813-42.
⁸ Miranda LH, Silva JN, Gremião ID, Menezes RC, Almeida-Paes R, Reis EG, et al. Monitoring fungal burden and viability of Sporothrix spp. in skin lesions of cats for predicting antifungal treatment response. J Fungi (Basel). 2018;4:92.
⁹ Gremião ID, Oliveira MM, Miranda LH, Freitas DF, Pereira SA. Geographic expansion of sporotrichosis, Brazil. Emerg Infect Dis. 2020;26:621-4.
¹⁰ Rodrigues AM, Gonçalves SS, Carvalho JA, Borba-Santos LP, Rozental S, Camargo ZP. Current progress on epidemiology, diagnosis, and treatment of sporotrichosis and their future trends. J Fungi (Basel). 2022;8:776.
¹¹ Brasil. Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Departamento de Doenças Transmissíveis. Coordenação-Geral de Vigilância de Zoonoses e Doenças de Transmissão Vetorial. Nota Técnica n^o 60/2023-CGZV/DEDT/SVSA/MS: a respeito das recomendações sobre a vigilância da esporotricose animal no Brasil. [cited 2024 Jan 30]. Available from: https://www.gov.br/saude/pt-br/centrais-de-conteudo/publicacoes/notas-tecnicas/2023/nota-tecnica-no-60-2023-cgzv-dedt-svsa-ms/view
» https://www.gov.br/saude/pt-br/centrais-de-conteudo/publicacoes/notas-tecnicas/2023/nota-tecnica-no-60-2023-cgzv-dedt-svsa-ms/view
¹² Eudes Filho J, Santos IB, Reis CM, Patané JS, Paredes V, Bernardes JP. A novel Sporothrix brasiliensis genomic variant in Midwestern Brazil: evidence for an older and wider sporotrichosis epidemic. Emerg Microbes Infect. 2020;9:2515-25.
¹³ Rodrigues AM, Hoog GS, Camargo ZP. Molecular diagnosis of pathogenic Sporothrix species. PLoS Negl Trop Dis. 2015;9:e0004190.
¹⁴ Carvalho JA, Beale MA, Hagen F, Fisher MC, Kano R, Bonifaz A, et al. Trends in the molecular epidemiology and population genetics of emerging Sporothrix species. Stud Mycol. 2021;100:100129.
¹⁵ Barnacle JR, Chow YJ, Borman AM, Wyllie S, Dominguez V, Russell K, et al. The first three reported cases of Sporothrix brasiliensis cat-transmitted sporotrichosis outside South America. Med Mycol Case Rep. 2023;39:14-7.
¹⁶ Etchecopaz AN, Lanza N, Toscanini MA, Devoto TB, Pola SJ, Daneri GL, et al. Sporotrichosis caused by Sporothrix brasiliensis in Argentina: case report, molecular identification and in vitro susceptibility pattern to antifungal drugs. J Mycol Med. 2020;30:100908.
¹⁷ Thomson P, González C, Blank O, Ramírez V, Río C, Satibáñez S, et al. Sporotrichosis outbreak due to Sporothrix brasiliensis in domestic cats in Magallanes, Chile: a one-health-approach study. J Fungi (Basel). 2023;9:226.
¹⁸ Duarte JM, Acosta VR, Viera PM, Caballero AA, Matiauda GA, Oddone VB, et al. Esporotricosis transmitida por gato doméstico: reporte de un caso familiar. Rev Nac (Itauguá). 2017;9:67-76.
¹⁹ Ramírez-Soto MC, Aguilar-Ancori EG, Tirado-Sánchez A, Bonifaz A. Ecological determinants of Sporotrichosis etiological agents. J Fungi (Basel). 2018;4:95.
²⁰ Lecca LO, Paiva MT, Oliveira CS, Morais MH, Azevedo MI, Bastos CV, et al. Associated factors and spatial patterns of the epidemic sporotrichosis in a high density human populated area: a cross-sectional study from 2016 to 2018. Prev Vet Med. 2020;176:104939.

FUNDING

The authors thank the Brazilian research funding agencies CAPES (Coordination for the Improvement of Higher Education Personnel), CNPq (National Council for Scientific and Technological Development), and FAPEG (Goias State Research Foundation) for their financial support of this work.

Publication Dates

Publication in this collection
05 Apr 2024
Date of issue
2024

History

Received
04 Oct 2023
Accepted
30 Jan 2024

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹ Rodrigues AM, Hagen F, Camargo ZP. A spotlight on Sporothrix and sporotrichosis. Mycopathologia. 2022;187:407-11.

[2] ² Etchecopaz AN, Alava KH, Scarpa M, Duchene A, Re DG, Cuestas ML. Feline sporotrichosis due to Sporothrix globosa in the Metropolitan region of Buenos Aires: a case study. Rev Argent Microbiol. 2023 In Press.

[3] ³ Makri N, Paterson GK, Gregge F, Urquhart C, Nuttall T. First case report of cutaneous sporotrichosis (Sporothrix species) in a cat in the UK. JFSM Open Rep. 2020;6:2055116920906001.

[4] ⁴ Han HS, Kano R. Feline sporotrichosis in Asia. Braz J Microbiol. 2021;52:125-34.

[5] ⁵ Gremião ID, Rocha EM, Montenegro H, Carneiro AJ, Xavier MO, Farias MR, et al. Guideline for the management of feline sporotrichosis caused by Sporothrix brasiliensis and literature revision. Braz J Microbiol. 2021;52:107-24.

[6] ⁶ Gremião ID, Miranda LH, Reis EG, Rodrigues AM, Pereira SA. Zoonotic epidemic of sporotrichosis: cat to human transmission. PLoS Pathog. 2017;13:e1006077.

[7] ⁷ Rodrigues AM, Terra PP, Gremião ID, Pereira SA, Orofino-Costa R, Camargo ZP. The threat of emerging and re-emerging pathogenic Sporothrix species. Mycopathologia. 2020;185:813-42.

[8] ⁸ Miranda LH, Silva JN, Gremião ID, Menezes RC, Almeida-Paes R, Reis EG, et al. Monitoring fungal burden and viability of Sporothrix spp. in skin lesions of cats for predicting antifungal treatment response. J Fungi (Basel). 2018;4:92.

[9] ⁹ Gremião ID, Oliveira MM, Miranda LH, Freitas DF, Pereira SA. Geographic expansion of sporotrichosis, Brazil. Emerg Infect Dis. 2020;26:621-4.

[10] ¹⁰ Rodrigues AM, Gonçalves SS, Carvalho JA, Borba-Santos LP, Rozental S, Camargo ZP. Current progress on epidemiology, diagnosis, and treatment of sporotrichosis and their future trends. J Fungi (Basel). 2022;8:776.

[11] ¹¹ Brasil. Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Departamento de Doenças Transmissíveis. Coordenação-Geral de Vigilância de Zoonoses e Doenças de Transmissão Vetorial. Nota Técnica n^o 60/2023-CGZV/DEDT/SVSA/MS: a respeito das recomendações sobre a vigilância da esporotricose animal no Brasil. [cited 2024 Jan 30]. Available from: https://www.gov.br/saude/pt-br/centrais-de-conteudo/publicacoes/notas-tecnicas/2023/nota-tecnica-no-60-2023-cgzv-dedt-svsa-ms/view
» https://www.gov.br/saude/pt-br/centrais-de-conteudo/publicacoes/notas-tecnicas/2023/nota-tecnica-no-60-2023-cgzv-dedt-svsa-ms/view

[12] ¹² Eudes Filho J, Santos IB, Reis CM, Patané JS, Paredes V, Bernardes JP. A novel Sporothrix brasiliensis genomic variant in Midwestern Brazil: evidence for an older and wider sporotrichosis epidemic. Emerg Microbes Infect. 2020;9:2515-25.

[13] ¹³ Rodrigues AM, Hoog GS, Camargo ZP. Molecular diagnosis of pathogenic Sporothrix species. PLoS Negl Trop Dis. 2015;9:e0004190.

[14] ¹⁴ Carvalho JA, Beale MA, Hagen F, Fisher MC, Kano R, Bonifaz A, et al. Trends in the molecular epidemiology and population genetics of emerging Sporothrix species. Stud Mycol. 2021;100:100129.

[15] ¹⁵ Barnacle JR, Chow YJ, Borman AM, Wyllie S, Dominguez V, Russell K, et al. The first three reported cases of Sporothrix brasiliensis cat-transmitted sporotrichosis outside South America. Med Mycol Case Rep. 2023;39:14-7.

[16] ¹⁶ Etchecopaz AN, Lanza N, Toscanini MA, Devoto TB, Pola SJ, Daneri GL, et al. Sporotrichosis caused by Sporothrix brasiliensis in Argentina: case report, molecular identification and in vitro susceptibility pattern to antifungal drugs. J Mycol Med. 2020;30:100908.

[17] ¹⁷ Thomson P, González C, Blank O, Ramírez V, Río C, Satibáñez S, et al. Sporotrichosis outbreak due to Sporothrix brasiliensis in domestic cats in Magallanes, Chile: a one-health-approach study. J Fungi (Basel). 2023;9:226.

[18] ¹⁸ Duarte JM, Acosta VR, Viera PM, Caballero AA, Matiauda GA, Oddone VB, et al. Esporotricosis transmitida por gato doméstico: reporte de un caso familiar. Rev Nac (Itauguá). 2017;9:67-76.

[19] ¹⁹ Ramírez-Soto MC, Aguilar-Ancori EG, Tirado-Sánchez A, Bonifaz A. Ecological determinants of Sporotrichosis etiological agents. J Fungi (Basel). 2018;4:95.

[20] ²⁰ Lecca LO, Paiva MT, Oliveira CS, Morais MH, Azevedo MI, Bastos CV, et al. Associated factors and spatial patterns of the epidemic sporotrichosis in a high density human populated area: a cross-sectional study from 2016 to 2018. Prev Vet Med. 2020;176:104939.