First report of Acinetobacter pittii acute community-acquired pneumonia in an immunocompetent patient in France following a heat wave

Here, we present the case of a 55-year-old non-immunocompromised male patient born in Vietnam and living in France who had no history of travel abroad since 2010. His main past medical history included type 2 diabetes, treated with metformin (HbA1c < 7%), well-controlled high blood pressure with angiotensin-converting enzyme inhibitor (perindopril) and calcium channel blockers (amlodipine) and dyslipidemia treated with atorvastatin. He had no history of surgery, smoking, alcohol or drug abuse. He was retired in 2017 (former archivist), had no children and lived in the Paris area in an apartment with his wife. He had no pets at home.

During his vacation in the New Aquitaine region (southwest side of France), he developed fever (up to 39 °C) with chills. The patient had no other symptoms throughout 4 days. Once back home, he consulted his general practitioner for persistent fever. The biological analysis prescribed showed biological inflammation with CRP = 121 mg/L and leukocytes = 19 G/L with polynuclear neutrophil predominance, acute kidney failure (creatinine = 255 µmol/L) and cytolysis up to 5 times normal (ASAT = 178 UI/L, ALAT = 250 UI/L) with anicteric cholestasis (PAL = 216 UI/L and GGT = 190 UI/L). The patient was then referred to the emergency department of our hospital. The clinical examination was normal apart from the persistence of fever, he had no signs of severity and the qSOFA score was 0. An abdominal ultrasound was performed, which showed no renal abnormalities and no dilation of the intra- or extrahepatic bile ducts. Two blood cultures were drawn, and the patient was admitted to the hepatology department, where no empiric antibiotic therapy was initiated in the absence of signs of severity.

The evolution was marked by the persistence of an isolated fever with chills. At the same time, renal function improved with rehydration, and the liver function test improved spontaneously. Blood cultures taken at entry and on subsequent days were positive for wild-type Acinetobacter pittii (3 blood culture samples taken 24 h apart). Standard MALDI-TOF (Bruker®) identification from bacterial colonies on solid media culture was confirmed with rrs gene sequencing (Molzym®, Germany) and identified A. pittii, a species belonging to the A. baumannii-calcoaceticus complex. The strain displayed a wild-type antibiotic resistance phenotype according to the disk-diffusion method on Mueller-Hinton agar, as recommended by the French Committee for Antimicrobial Susceptibility Testing (Table 1).

HIV, HAV, HBV, HCV and HEV serologies were negative. EBV and CMV serologies showed a pattern of previous infection. SARS CoV-2 PCR on nasopharyngeal swab was negative.

Antibiotic therapy with cefotaxime was started when the blood culture was positive for gram-negative bacilli (time to positivity 11, 9 h in aerobic environment) and then changed to cefepime 2 g/8 h after bacteriological identification. The exploration of the portal of entry and staging for extension included a thoracic-abdominal-pelvic CT scan on day 5, which showed alveolar consolidation with air bronchograms in the middle lobe associated with a right pleural effusion of moderate size (Fig. 1A). No other abnormalities were detected. Because the patient had already received 5 days of antibiotic treatment and did not show any pulmonary symptoms, no sputum culture was performed. Transthoracic echocardiography was performed on day 7 and did not show endocarditis signs. The evolution was rapidly favorable with antibiotic treatment: the patient became afebrile within 48 h, the biological inflammatory syndrome decreased, and the control blood cultures were negative. Antibiotic treatment with cefepime was continued for 7 days. The patient was discharged home at the end of the antibiotic treatment. At 3 months, the evolution of the pulmonary infection was favorable at the clinical, biological and radiological levels (Fig. 1B).

To further understand this unusual infection, we confirmed bacterial identification with whole-genome sequencing (Illumina®). Pair-end reads were de novo assembled with the SPAdes-based [10] Shovill algorithm (https://​github.​com/​tseemann/​shovill). Species identification was performed using the KmerFinder approach [11] in combination with phylogeny within the bacterial species belonging to ABC. We identified two beta-lactamase-encoding chromosomal genes, bla_ADC− 25 and bla_{OXA− 500,} by querying the Resfinder database [12], which is consistent with phenotypic data. We computed the core genome using Roary [13] using a MAFFT alignment. Maximum-likelihood phylogenies using Generalize Time Reversible model were set with PhyML [14] into (i) ABC isolates (data not shown) and then (ii) A. pittii isolates (Fig. 2), including external genomes previously published.

This case is of particular interest because of the clinical presentation, which is unusual regarding the classically described cases of community-acquired infections with ABC in tropical countries [9, 15]. Despite blood stream infection and delayed appropriate antibiotic treatment, the patient did not experience fulminant infection, organ failure or septic shock.

To our knowledge, this is the first case report of a community-acquired infection with A. pittii in an immunocompetent patient in France. In 2017, a French group reported the case of a 45-year-old woman with a history of smoking and systemic lupus, with community-acquired cavitary pneumonia due to A. pittii [16]. In our case, apart from well-treated diabetes mellitus, our patient had no known risk factors for community-acquired ABC infection, such as excessive alcohol consumption, smoking, chronic lung disease or living in a tropical or subtropical climate [17].

Data from the literature strongly hypothesized that ABC inhabits a warm and humid environment, as suggested by several studies conducted in Taiwan, Singapore and Australia, which reported that more than two out of three cases of community-acquired ABC infections occurred during the hot and humid months [8, 15, 18]. Interestingly, this case occurred just after a remarkably hot summer period in France, in a wet area (Gironde estuary, close to the ocean), with unusually high temperatures for the region and the time of the year (above 38 °C with a peak at 43 °C) [19].

Whether our case could be a consequence of global warming remains hypothetical. This observation underlines the importance of being attentive to the evolution of local epidemiology while acknowledging the variations linked to climate change. We may need to modify our empiric antibiotic therapy to take into account these emerging species if this situation becomes widespread. On a larger scale, global climate change leads to a modified epidemiology of pathogens in a multifactorial pattern [20, 21]: at the level of reservoir ecology but also in vector-borne pathologies. In the field of infectious diseases, some reports have pointed out the influence of global warning in the increasing emergence of unusual pathogens such as Vibrio parahaemolyticus [22, 23] and Borrelia burgdorferi [24] in northern countries. These reports probably reflect a new era in the field of infectious disease: the emergence of new or rare pathogens. From this perspective, the link with climate change forces us to rethink the understanding of infections and their distribution in time and space.