Abstract
A four-year-old male goat with a history of neurological disorder was euthanized. It presented uncommon nodules in the brain and lungs associated with multiple abscesses, predominantly in the spleen and liver. Histological examination of brain and lung sections revealed yeast forms confirmed to be Cryptococcus gattii after a combination of isolation and polymerase chain reaction (PCR) procedures. Moreover, Corynebacterium pseudotuberculosis infection was diagnosed by PCR of samples from the lung, spleen and liver. The present report highlights the rare concurrent infection of C. gatti and C. pseudotuberculosis in an adult goat from São Paulo state, Brazil, and indicates the necessity of surveillance in the treatment of goats with atypical pulmonary infections associated with neurological disorders.
Cryptococcus gattii; Corynebacterium pseudotuberculosis; meningoencephalitis; goat
CASE REPORT
Brain and lung cryptococcoma and concurrent corynebacterium pseudotuberculosis infection in a goat: a case report
Luvizotto MCRI; Carreira VSI; Ferrari HFI;Ribeiro DII; Vallim MAIII, Azevedo VII; Cardoso TCI
ILaboratory of Animal Pathology and Microbiology, School of Veterinary Medicine, São Paulo State University, UNESP, Araçatuba, São Paulo State, Brazil
IILaboratory of Cellular and Molecular Genetics, Federal University of Minas Gerais, UFMG, Belo Horizonte, Minas Gerais State, Brazil
IIIDepartment of Microbiology, Federal University of São Paulo, UNIFESP, São Paulo, São Paulo State, Brazil
Correspondence to Correspondence to: Tereza Cristina Cardoso Laboratório de Microbiologia Departamento de Apoio, Produção e Saúde Animal, UNESP Rua Clóvis Pestana, 793, Araçatuba, SP, 16.050-680, Brasil Phone: +55 18 3636 1421 Fax: +55 18 36361403 Email: tcardoso@fmva.unesp.br
ABSTRACT
A four-year-old male goat with a history of neurological disorder was euthanized. It presented uncommon nodules in the brain and lungs associated with multiple abscesses, predominantly in the spleen and liver. Histological examination of brain and lung sections revealed yeast forms confirmed to be Cryptococcus gattii after a combination of isolation and polymerase chain reaction (PCR) procedures. Moreover, Corynebacterium pseudotuberculosis infection was diagnosed by PCR of samples from the lung, spleen and liver. The present report highlights the rare concurrent infection of C. gatti and C. pseudotuberculosis in an adult goat from São Paulo state, Brazil, and indicates the necessity of surveillance in the treatment of goats with atypical pulmonary infections associated with neurological disorders.
Key words: Cryptococcus gattii, Corynebacterium pseudotuberculosis, meningoencephalitis, goat.
INTRODUCTION
Cryptococcosis is an important cause of life-threatening meningoencephalitis both in human and other animals. Cryptococcus gattii is a basidiomycetes, a encapsulated yeast that is typically found in tropical and subtropical climate zones and predominantly infects immunocompetent hosts (1, 2). Traditionally, the natural habitat of C. gattii is mainly associated with several tree species (3). Moreover, cryptococcosis is characterized as an invasive fungal infection most commonly caused by one of two species normally defined as subacute or chronic, and often confused with viral or bacterial meningoencephalitis or other infections, including tuberculosis (3-5). Besides, there are substantial differences in the ecology that can influence directly on cryptococcosis epidemiology (3). Recently, C. gattii has been described to be associated with non-immunocompromised individual infection, resulting in a severe meningoencephalitis disorder in a domestic cat (5).
Corynebacterium pseudotuberculosis is the etiological agent of caseous lymphadenitis (CLA), a common disease in small ruminants throughout the world. This infection has been an important disease in the majority of sheep-rearing regions for over a century. Because of the chronic and often subclinical nature of CLA, it has proved to be difficult to control and its prevalence is high in many parts of the world, which, in turn, leads to significant economic losses for farmers (6, 7). Furthermore, to the best of our knowledge, the direct association between C. gatti and C. pseudotuberculosis infecting goats has never been described before.
CASE REPORT
A 4-year-old goat male, Boer breed, presenting a two-week history of gait and right head-tilt unresponsive to anti-inflammatory and antibiotic conventional treatment was sent to the Teaching Hospital of São Paulo State University, UNESP, in Araçatuba, SP, Brazil, and was killed for pathological examination.
Samples from the lung, brain and spleen were formalin-fixed and processed for histology by routine methods - sectioned (4 µm) and stained with hematoxylin and eosin (HE) and periodic acid-Schiff (PAS). Tissue suspensions, cerebrospinal fluid and pus from abscessed nodes were also submitted to microbiological analysis. Colonies resembling C. peudotuberculosis were tested for biochemical properties. Some clinical samples were also evaluated by mycological exams, which revealed by direct microscopy and culture on Sabouraud dextrose agar at 30°C and 37°C the presence of Cryptococcus spp. After that, a multiplex-PCR was carried out to differentiate C. neoformans from C. gatti in lung samples using the sets of primers, as previously described (8). An m-PCR was also carried out to identify C. pseudotuberculosis through sets of primers targeting on 16S rRNA, rpoB and pld genes, as previously described (9). Total DNA was extracted from all clinical samples; the primer sequences employed are shown on Table 1 (8, 9).
Sequences of oligonucleotides employed to characterized the serotype of Cryptococcus neoformans and C. gatti and molecular identification of Corynebacterium pseudotuberculosis
Reference
Description
5' to 3'sequence
MVA 009 (ATCC 24066)
Cryptococcus gatii (genotype C)
CNa-70-A (59-ATTGCGTCCATGTTACGTGGC-39)
CNa-29-S (59-CTCTTGACGTTGGCTCTTTC-39)
MVA 010 (ATCC 32045)
Cryptococcus grubii (genotype A)
CNa-70-S (59-ATTGCGTCCACCAAGGAGCTC-39)
CNa-70-A (59-ATTGCGTCCATGTTACGTGGC-39)
MVA 011 (ATCC 28958)
Cryptococcus neoformans (genotype D)
CNa-29-S (59-TCTTGACGTTGGCTCTTTC-39)
29-A (59-CTACTGATGAAAACTCGCTG-39)
MVA 012 (ATCC 48184)
Cryptococcus neoformans (genotypes A and D)
MPLD1
Corynebacterium pseudotuberculosis
16S rRNA gene 16S-F ACCGCACTTTAGTGTGTGTG
16S-R TCTCTACGCCGATCTTGTAT
rpoB C2700F CGTATGAACATCGGCCAGGT
C3130R TCCATTTCGCCGAAGCGCTG
pld PLD-F ATAAGCGTAAGCAGGGAGCA
PLD-R1 ATCAGCGGTGATTGTCTTCC
PLD-R2 ATCAGCGGTGATTGTCTTCCAGG
MPLD2.1
Corynebacterium. Pseudotuberculosis
At necropsy, a 4.5 x 4.0-cm firm yellowish nodule filled with gelatinous substance associated with multiples 1 to 2-cm abscesses were found in the left lung lobe (Figure 1A). Ovoid abscesses and multiple coalescing translucent cysts in the spleen and liver were also observed. In addition, 2 to 3-mm translucent cysts were discovered dispersed in cerebral cortex, surrounded by necrosis (Figure 1B).
Cytology smears (PAS, staining) prepared from brain lesions and the large lung nodule revealed multiple yeasts with thick capsules arranged into clusters or not (Figures 1D and 1F). Histopathology sections prepared from lung specimens revealed severe pneumonia, associated mostly with yeasts localized at alveoli adjacent to bronchi, intracellular and extracellular enmeshed in abundant amorphous material and nuclear debris (Figures 1C). Brain sections revealed extensive necrosis and yeast-like forms (Figure 1F). Furthermore, PAS positive yeast-like organisms, morphologically similar to Cryptococcus sp. were detected in the brain, spinal cord, encephalic white matter and lung nodule (Figure 1E). The molecular identification of C. gatti was confirmed, as it can be observed in Figure 2, in which is clearly demonstrated a fragment 448-bp specific for C. gatti in positive control (line1) and lung tissue sample (line 5). The fragment of 695-bp corresponds to ATCC samples of C. neoformans. Colonies isolated from lung and spleen abscesses which were suspected of being Corynebacterium genera were confirmed by m-PCR assay as being C. pseudotuberculosis, as demonstrated in Figure 3.
DISCUSSION
Natural CLA infections in goats demonstrate several similarities with the disease in sheep, especially when the same biotype of C. pseudotuberculosis is responsible. However, consideration of the differences in clinical presentation between sheep and goats may be helpful in respect of pathogenesis and specific risk factors (6, 9). In both sheep and goats, the major sites of infection are the superficial lymph nodes. However, in the present study no superficial lymph node was clinically observed. Furthermore, visceral lesions have been described as rare and found only in a minority of animals (7). Additionally, in sheep, visceral lesions, and particularly lung lesions, occur more frequently and in greater numbers than in goats (6, 7, 10, 11). Herein, it seems that primary infection with C. pseudotuberculosis, in a different pathway, predisposed the animal to C. gattii infection. This is an important epidemiological aspect since C. gattii has been identified as a primary pathogen and led to other infections in both humans and other animals (2, 4, 5, 12-15). In addition, an association between C. neoformans and Mycobacterium bovis infection has already been described in goat, generating a granulomatous pneumonia (4).
There are few reports that describe C. gattii causing diseases in goats and it appears that chronic and often subclinical infections can predispose to C. gatti concurrent infections, even in non-immunocompromised individuals (16, 17). Different from CLA in goats, there are a small number of studies that report C. gatti infecting in this species. In Spain, the disease was described in outbreaks and caused severe pneumonia associated with cachexia in most affected animals (2). In Brazil, a survey on regional patterns of C. neoformans and C. gatti was carried out and found predominance of C. gatti in the northeast region (18). The present case seems to be the first one to report the occurrence of the disease in a Brazilian goat, caused by C. gatti serotype B. Since cryptococcosis is not well known in goats in the country, this infection may have predisposed to the concurrent infection by C. pseudotuberculosis, as it was herein presented. Both pathogens can be transmitted to non-immunocompromised hosts, both humans and other animals, and the surveillance of their natural occurrence should be stimulated aiming at preventing new infections.
ACKNOWLEDGEMENTS
We would like to thank Dr. Luis G. C. Pacheco and Dr. Renata C. Pascon for their excellent technical assistance.
Received: January 14, 2009
Accepted: July 1, 2009
Abstract published online: July 7, 2009
Full paper published online: August 31, 2009
CONFLICTS OF INTEREST: There is no conflict.
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Publication Dates
-
Publication in this collection
24 Nov 2009 -
Date of issue
2009
History
-
Received
14 Jan 2009 -
Accepted
01 July 2009