Genomic Variation and Evolution of<i>Vibrio parahaemolyticus</i>ST36 over the Course of a Transcontinental Epidemic Expansion

Martínez-Urtaza, Jaime; Aerle, Ronny van; Abanto, Michel; Haendiges, Julie; Myers, Robert A.; Triñanes, Joaquín; Baker‐Austin, Craig; González-Escalona, Narjol

doi:10.1128/mbio.01425-17

Cited by 60 publications

(75 citation statements)

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“…Differences in species level or genus level composition between locations are as likely to reflect environmental heterogeneity as dispersal, making the patterns difficult to interpret. Recent spread of microbes between continents has been documented for lineages that cause pathogenic infection of humans, including notorious clonal groups within Vibrio parahaemolyticus and Vibrio cholerae [5-8]. However, these lineages are unusual in using humans as vectors, which might facilitate long-range dispersal as in the case of the Haitian cholera outbreak [9].…”

Section: Introductionmentioning

confidence: 99%

Recent mixing of Vibrio parahaemolyticus populations

Yang

Pei

et al. 2018

Preprint

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20Background Humans have profoundly affected the ocean environment but little is known 21 about anthropogenic effects on the distribution of microbes. Vibrio parahaemolyticus is found 22 in warm coastal waters and causes gastroenteritis in humans and economically significant 23 disease in shrimps. 24Results Based on data from 1,103 genomes, we show that V. parahaemolyticus is divided 25 into four diverse populations, VppUS1, VppUS2, VppX and VppAsia. The first two are 26 largely restricted to the US and Northern Europe, while the others are found worldwide, with 27 VppAsia making up the great majority of isolates in the seas around Asia. Patterns of 28 diversity within and between the populations are consistent with them having arisen by 29 progressive divergence via genetic drift during geographical isolation. However, we find that 30 there is substantial overlap in their current distribution. These observations can be reconciled 31 without requiring genetic barriers to exchange between populations if dispersal between 32 oceans has increased dramatically in the recent past. We found that VppAsia isolates from the 33 US have an average of 1.01% more shared ancestry with VppUS1 and VppUS2 isolates than 34 VppAsia isolates from Asia itself. Based on time calibrated trees of divergence within 35 epidemic lineages, we estimate that recombination affects about 0.017% of the genome per 36year, implying that the genetic mixture has taken place within the last few decades. 37Conclusions These results suggest that human activity, such as shipping and aquatic products 38 trade, are responsible for the change of distribution pattern of this marine species. 39 40 Keywords 41 Vibrio parahaemolyticus, population structure, biogeography, anthropogenic change, ocean 42 dispersal 43 44 3 45 Background 46 Hospitable environments for particular marine microbes can be separated by large distances 47 but whether dispersal barriers substantially influence their distribution and evolution is 48 unknown. There are many studies of distribution of marine microbes e.g. [1-4], but these 49 typically survey patterns of macro-scale diversity. Differences in species level or genus level 50 composition between locations are as likely to reflect environmental heterogeneity as 51 dispersal, making the patterns difficult to interpret. Recent spread of microbes between 52 continents has been documented for lineages that cause pathogenic infection of humans, 53 including notorious clonal groups within Vibrio parahaemolyticus and Vibrio cholerae [5-8]. 54 However, these lineages are unusual in using humans as vectors, which might facilitate long-55 range dispersal as in the case of the Haitian cholera outbreak [9]. We currently have little 56 information on rates of spread of the great majority of environmental organisms that do not 57 colonize large-animal hosts. 58 59 V. parahaemolyticus prefers warm coastal waters and causes gastroenteritis in humans [10, 60 11]. Disease outbreaks became common from 1990s and became global, due to spread of 61 pa...

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Section: Introductionmentioning

confidence: 99%

Recent mixing of Vibrio parahaemolyticus populations

Yang

Pei

et al. 2018

Preprint

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“…This particular population structure suggests the existence of a lineage replacement in the PNW coast and western Canada, where only strains belonging to the second cluster were identified from 2005 onward. Surprisingly, we unequivocally identified the strains in the 2012 Galicia outbreak as belonging to the first cluster composed of strains extinct in their original location along the PNW coast, which suggests an early introduction of these strains into waters of Galicia and Europe ( 14 ). Furthermore, we identified a single strain from Canada as closely related to the genomes from the Galician strains with a minimum difference of 20–22 SNPs in an alignment of 3,310,986 bp, whereas variations among genomes of the ST36 strains from Galicia were 0–19 SNPs.…”

Section: Resultsmentioning

confidence: 81%

“…However, we cannot rule out the introduction of foreign mollusks into the marine water of Galicia as a possible source of new variants of pathogenic Vibrio bacteria from disparate and remote sources because of the magnitude of the shellfish trade in the region; the importation of shellfish from other geographic areas is a common practice to supply the high demand for products. A recent study analyzing the population structure and evolution of the ST36 clone suggests that the importation of clams from the PNW to Spain circa 2000 is the probable source of ST36 strains ( 14 ). Moreover, 2 other recent studies tracking the routes of introduction of the Manila clam from its original place of distribution in the Indo-Pacific region to Europe has also linked the origin of clam populations introduced in Spain to the PNW of the United States (area of endemicity of ST36 populations) during the importations of clams in the mid- and late 1990s ( 21 , 22 ).…”

Section: Resultsmentioning

confidence: 99%

“…The concomitant introduction of foreign Vibrio variants with a significant warming trend in the region, coupled with the consumption of locally produced shellfish in the region, may be major contributing factors for the emergence of infections in Galicia. Parallel circumstances may also drive disease emergence in other areas of the world with similar environmental conditions, such as the Pacific Northwest ( 24 , 25 ) and the Atlantic Northeast ( 14 , 26 ) in the United States or the south of Chile ( 27 ). In these areas.…”

Section: Resultsmentioning

confidence: 99%

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Epidemic Dynamics ofVibrio parahaemolyticusIllness in a Hotspot of Disease Emergence, Galicia, Spain

Martínez-Urtaza¹,

Triñanes²,

Abanto³

et al. 2018

Emerg. Infect. Dis.

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Galicia in northwestern Spain has been considered a hotspot for Vibrio parahaemolyticus infections. Infections abruptly emerged in 1998 and, over the next 15 years, were associated with large outbreaks caused by strains belonging to a single clone. We report a recent transition in the epidemiologic pattern in which cases throughout the region have been linked to different and unrelated strains. Global genome-wide phylogenetic analysis revealed that most of the pathogenic strains isolated from infections were associated with globally diverse isolates, indicating frequent episodic introductions from disparate and remote sources. Moreover, we identified that the 2 major switches in the epidemic dynamics of V. parahaemolyticus in the regions, the emergence of cases and an epidemiologic shift in 2015–2016, were associated with the rise of sea surface temperature in coastal areas of Galicia. This association may represent a fundamental contributing factor in the emergence of illness linked to these introduced pathogenic strains.

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“…These characteristics greatly facilitate the Vibrionaceae's ability to disseminate throughout the world's oceans, a feature that will be immensely heightened with climate change (Martinez-Urtaza et al 2016;Racault et al 2016). Even single strains have been able to cross entire ocean basins (González-Escalona et al 2015;Martinez-Urtaza et al 2017).…”

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Adaptation to temperature stress by Vibrio fischeri facilitates this microbe's symbiosis with the Hawaiian bobtail squid ( Euprymna scolopes )

et al. 2019

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For microorganisms cycling between free‐living and host‐associated stages, where reproduction occurs in both of these lifestyles, an interesting inquiry is whether adaptation to stress during the free‐living stage can impact microbial fitness in the host. To address this topic, the mutualism between the Hawaiian bobtail squid (Euprymna scolopes) and the marine bioluminescent bacterium Vibrio fischeri was utilized. Using microbial experimental evolution, V. fischeri was selected to low (8°C), high (34°C), and fluctuating temperature stress (8°C/34°C) for 2000 generations. The temperatures 8°C and 34°C were the lower and upper growth limits, respectively. V. fischeri was also selected to benign temperatures (21°C and 28°C) for 2000 generations, which served as controls. V. fischeri demonstrated significant adaptation to low, high, and fluctuating temperature stress. V. fischeri did not display significant adaptation to the benign temperatures. Adaptation to stressful temperatures facilitated V. fischeri’s ability to colonize the squid host relative to the ancestral lines. Bioluminescence levels also increased. Evolution to benign temperatures did not manifest these results. In summary, microbial adaptation to stress during the free‐living stage can promote coevolution between hosts and microorganisms.

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Genomic Variation and Evolution ofVibrio parahaemolyticusST36 over the Course of a Transcontinental Epidemic Expansion

Cited by 60 publications

References 66 publications

Recent mixing of Vibrio parahaemolyticus populations

Recent mixing of Vibrio parahaemolyticus populations

Epidemic Dynamics ofVibrio parahaemolyticusIllness in a Hotspot of Disease Emergence, Galicia, Spain

Adaptation to temperature stress by Vibrio fischeri facilitates this microbe's symbiosis with the Hawaiian bobtail squid ( Euprymna scolopes )

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