Environmental Changes and the Geographic Spreading of American Cutaneous Leishmaniasis in Brazil

Global human population is facing the impacts of centuries of constant changes in natural environments. Impacts in the dynamics of infectious diseases are not only expected, but can already be noticed. Vector-borne diseases are particularly susceptible to environmental changes, since their occurrence depends on the ecological balance between different species in complex transmission cycles [1-3]. Leishmaniases are among the vector-borne diseases most affected by this ecological chaos driven by human actions [4], and one of the expected impacts is the expansion of its geographical distribution [5-7].


3.
Rural/periurban (colonization areas): ACL occurrence is related to human migration, occupation of slopes and aggregation in periurban areas associated with secondary and residual vegetation. Synanthropic and domestic animals such as dogs, horses and rodents are suggested reservoir hosts.
Brazil is currently facing an increasing geographical expansion of ACL, with a shift from the classical predominant epidemiological pattern 1 to frequent observations of pattern 2. All of its states have records of the disease, with a growing number of municipalities affected each year ( Figure 1). This expansion can probably be explained by the growing environmental changes, which in turn affect vector behavior. Some ACL vector species have been showing evidences of adaptation to man-modified environments, establishing in peridomestic areas, even in outskirts of large cities [22,23]. In this case, two sand fly species are particularly good examples, in different ecoepidemiological situations: Lutzomyia (Nyssomyia) whitmani and Lutzomyia (Nyssomyia) flaviscutellata. On the following sections the geographical distribution in Brazil and relation with ACL transmission of these species are presented.  [27]. At this time, this sand fly species used to inhabit mainly forests. Man and domestic animals were bitten when they entered these areas or when houses were built near or inside forests [26]. Other studies on the ecology of L. (N.) whitmani showed aspects of its natural breeding places, monthly variation, high density and adaptation to domestic areas [28].
In Brazil, L. (N.) whitmani was already detected in 634 of its 5566 municipalities, occurring in all 27 federative units ( Figure 2). The states with the higher spatial aggregation of municipalities with the vector occurrence are Pernambuco, Minas Gerais, São Paulo and Paraná, which are also areas of high concentration of ACL human cases [29] (see Figure 1). Lutzomya (N.) whitmani is widely distributed across Brazilian biomes. Its presence was recorded in Amazon, Cerrado, Caatinga, Atlantic Forest and Pantanal (Figure 3), occurring mainly in Cerrado and Atlantic Forest [30]. When observing its occurrence in different Brazilian vegetation types, the vector occurs in municipalities with predominance of dense ombrophilous forest, deciduous ombrophilous forest, semideciduous ombrophilous forest, savannah and steppe ( Figure 4). The species was not observed in municipalities predominantly covered by marshes and sandbanks [29].
In São Paulo state, L. (N.) intermedia and L. (N.) whitmani were the predominant species during deforestation of primary forests [28]. However, as deforestation continued to expand, L. (N.) whitmani showed lower abundances, suggesting that this species would be more dependent of primary forest than L. (N.) intermedia. On the other hand, L. (N.) whitmani was found frequently inside houses built near the forest. In Southeast Region, this species can be found during all months of the year [22,26]. In São Roque municipality, São Paulo state, L. (N.) whitmani was the predominant sand fly species among Leishmania (V.) braziliensis transmission areas [31], showing higher abundances in the hotter months of the year [32].

Leishmaniasis -Trends in Epidemiology, Diagnosis and Treatment 6
This species was also observed in Atlantic Forest protected areas and inside houses near the forest in Rio de Janeiro state [33]. In the same state, studies performed in rural areas of ACL transmission showed the co-occurrence of L. (N.) intermedia and L. (N.) whitmani biting humans. In peridomestic areas, L. (N). intermedia was predominant, while L. (N.) whitmani was more frequent in the nearest forest. With this spatial separation, the authors suggested that both species would be sharing Leishmania (V.) braziliensis transmission on the same focus, throughout the year. Lutzomyia (N.) whitmani was captured during all year, but was more frequent in months with lower temperatures [34].
In South Brazil, L. (N.) whitmani is probably associated to ACL transmission in Paraná state. Studies performed in the north of this state detected it as predominant sand fly species and naturally infected by Leishmania (V.) braziliensis parasites [37].

Leishmania (V.) braziliensis in Northeast region is also probably transmitted by L. (N.) whitmani.
In Bahia and Ceará states this vector shows similar habits to the Southeast region populations: high anthropophily and presence in domestic areas [38][39][40]. In Ceará state, L. (N.) whitmani was found naturally infected by Leishmania of Viannia subgenus [41]. Afterwards, new infections were detected and the parasite characterization confirmed to be Leishmania (V.) braziliensis [42]. Other evidences of this vector's role in ACL transmission in the region were its high abundance and anthropophily [40,42].
In Bahia state, L. (N.) whitmani was found naturally infected by Leishmania (V.) braziliensis in Três Braços [43]. This finding, associated with the high frequency of this sand fly in peridomestic and domestic areas allowed the hypothesis of occurrence of a domestic transmission cycle in this area [44]. In Ilhéus municipality, L. (N.) whitmani was suggested as ACL vector, considering its almost absolute predominance over other sand fly species (99.7%), its high anthropophily and its occurrence on every sand fly capture point, most of them coincident with areas of ACL human cases [40].
In the Mid-West Region, in Corguinho municipality (Mato Grosso do Sul state), Leishmania (V.) braziliensis was isolated from every tested ACL patient by monoclonal antibodies. Lutzomyia (N.) whitmani was suggested as vector because it was observed in high abundances and anthropophilic [45]. Furthermore, its predominance over other sand flies was observed in eight of ten ecotopes studied in the locality. Lutzomyia (N.) whitmani was present both in ground level and in the forest canopy, suggesting its eclectic feeding habits on mammals and birds. Although in this locality the species is not very common in peridomestic areas, its high abundance and anthropophily are strong evidences of its role in ACL transmission [46].
The behavior of L. (N.) whitmani in North region seems to be different from other regions. In these areas, the species was considered mainly sylvatic, being captured on tree trunks and canopies, besides showing low attractiveness for humans [47]. Afterwards, novel studies confirmed such observations and suggested that, if the species were to be anthropophilic, it would be only in some situations [48,49]. In 1989, in Pará state, a parasite was isolated from L. (N.) whitmani, and after its characterization as Leishmania (V.) shawi, the sand fly species was suggested as its vector [50].
This sand fly species is associated with Leishmania (Leishmania) amazonensis transmission in Brazil. This parasite, when infecting humans, can cause localized cutaneous lesions and eventually develop a more severe clinical form, diffuse cutaneous leishmaniasis (DCL). This clinical form is rare, with chronic development, where the immunodepressed patient shows frequent relapses and insufficient responses to available therapies [60].
The first observation of this sand fly's role in ACL transmission cycle was from a study in the Utinga forest, an Amazon area in Belém municipality (Pará state) [61]. In this area, wild rodents of Proechimys and Oryzomys genus were captured with cutaneous lesions on tails and feet, from where Leishmania parasites were isolated. These rodents were then used as baits and 98% of captured sand flies were L. (N.) flaviscutellata. Captured sand flies were dissected and flagellates were isolated from eight females.
Studies of the feeding habits of L. (N.) flaviscutellata showed higher preference for small sylvatic rodents (Proechimys sp., Oryzomys sp.), agoutis (Dasyprocta sp.) and porcupines (Coendou sp.), having the species also fed on opossums (Philander sp.), monkeys (Saimiri sp.) and chickens (Gallus gallus). Few females fed on humans, so the authors considered the species as having low anthropophily [62]. This preference for biting small rodents indicates that captures of this species tend to be more efficient when using animal baited traps, such as the Disney trap [63].
Despite its strong zoophilic habits and low anthropophily, Lutzomyia (N.) flaviscutellata has recently been captured in peridomestic areas, suggesting its dispersion to human dwellings [64][65][66][67]. This hypothesis is plausible, since the species also occurs in secondary forests in the Amazon. In a study performed in the late 1980s in Pará state, L. (N.) flaviscutellata was the predominant sand fly species in an area where the primary forest was replaced with exotic trees (Pinus and Gmelina), with occasional captures in peridomestic areas of houses near the forest [68]. In a review of the Amazonian ACL transmission cycles, L. (N.) flaviscutellata was considered one of the few vector species that could adapt to deforestation and become peridomestic [69].
In Brazil, L. (N.) flaviscutellata was detected in 131 municipalities, mostly in North and Mid-West regions, with occurrences also in Southwest and Northeast regions ( Figure 5).
Lutzomya (N.) flaviscutellata is considered mainly an Amazonian species, although it can also be found in Cerrado and some few occurrences were recorded in Atlantic Forest, Caatinga and Pantanal ( Figure 6).
In the Amazon, L. (N.) flaviscutellata is more commonly found in seasonally flooded areas of "igapó forests", when compared with non-flooded areas of "terra-firme forests" [70]. Its vertical distribution was also studied in the Amazon. The species has a very low flight, with 26 times more specimens captured 0.2 meters above ground than at 1.2 meters. This observation reinforces its association with small rodents and the fact that human cutaneous lesions caused by Leishmania (L.) amazonensis are mainly located in the lowest parts of the body [71].
Also in the North region, Tocantins state has most of its area covered by Cerrado. It was in this biome that L. (N.) flaviscutellata was captured during a four-year sand fly fauna monitoring in the ACL endemic areas of Porto Nacional and Guaraí municipalities. This vector species was found in peridomestic captures in rural settlements and periurban areas [66,67] and was suggested as Leishmania (L.) amazonensis vector in Porto Nacional [66]. In municipalities of the south of the same state, L. (N.) flaviscutellata was captured near houses in areas directly and indirectly impacted by a hydroelectric power plant construction in Tocantins River [86].
In Bela Vista municipality (Mato Grosso do Sul State, Mid-West region), an ACL outbreak associated with Leishmania (L.) amazonensis in a military training unit led to a sand fly fauna monitoring during years 2004 to 2006. Using light traps, few specimens of L. (N.) flaviscutellata were caught [87]. When a modified Disney trap baited with hamsters (Mesocricetus auratus) was used, L. (N.) flaviscutellata was the species with the highest female abundance [88]. Despite its capture with these methodologies, some females were also captured in white and black Shannon traps [89], suggesting that the species can also feed on humans, and therefore be a possible Leishmania (L.) amazonensis vector in this locality [87].
The sand fly fauna of an ecotourism area in Bonito (Mato Grosso do Sul state) was studied. In Cerrado areas, L. (N.) flaviscutellata was caught with light traps mainly inside the forest, but it was also found in yards and kennels of houses [64].

Leishmaniasis -Trends in Epidemiology, Diagnosis and Treatment 12
Please use Adobe Acrobat Reader to read this book chapter for free.
Just open this same document with Adobe Reader. If you do not have it, you can download it here. You can freely access the chapter at the Web Viewer here.  Just open this same document with Adobe Reader. If you do not have it, you can download it here. You can freely access the chapter at the Web Viewer here.
In Southeast region, another ecotourism area was surveyed, in Rio de Janeiro state, Atlantic Forest biome. In Angra dos Reis municipality, the state's biggest continental island -Ilha Grande -has records of sporadic ACL cases since the first outbreak in the decade of 1970. At the time of the ACL outbreak, the sand fly fauna was monitored and L. (N.) flaviscutellata was captured inside the forest with Disney traps, baited with Proechimys rodents [90]. Over three decades later, the same localities were surveyed, and L. (N.) flaviscutellata was captured inside the forest and in peridomestic areas of several fisherman villages in Ilha Grande [65]. Even though there are no recorded human cases of Leishmania (L.) amazonensis infection in Ilha Grande, one DCL case was recorded in 2007 in Paraty, a municipality neighbor to Angra dos Reis [91].

Conclusion: Two American cutaneous leishmaniasis vectors as drivers of its geographical expansion in Brazil
Both Lutzomyia (N.) whitmani and L. (N.) flaviscutellata are widely spread in Brazilian territory. Each one with its particular epidemiological importance, their geographical distributions overlap areas of ACL occurrence in Brazil (Figure 7).
Since it has a wide geographical distribution and it is associated with two ACL parasites (Leishmania (V.) braziliensis and Leishmania (V.) shawi), currently, Lutzomyia (N.) whitmani is considered the most important ACL vector in Brazil. Its importance is due mainly to its role in transmission cycles related with ACL epidemiological pattern 2 (sylvatic/occupational and impacted areas). This sand fly species was found in several localities associated with areas of environmental changes of different origins, such as deforestation, road constructions, human settements and agricultural activities. This epidemiological pattern is frequently observed in Brazil, and constitutes the main evidence of the disease's geographical spreading.
Lutzomyia (N.) flaviscutellata, with evidences of dispersion to peridomestic areas especially in the Cerrado biome, confirms the ruralization process of the previously considered strictly sylvatic cycle of Leishmania (L.) amazonensis. The possibility of this enzootic cycle to be maintained in secondary forests and even become peridomestic was previously discussed [69]. This could be happening, in part, because of the adaptation process of the vector to man-modified environments. At first, it would be logical to think that a strictly sylvatic cycle would disappear with deforestation of primary forests [92], but the Leishmania (L.) amazonensis cycle shows evidences of occurrence in secondary forests and peridomestic areas, where the vector could be dispersing to domestic animal shelters [22].
Considering the great challenge that is controlling ACL, a disease with complex epidemiology directly associated with environmental changes, studies that aim to characterize and monitor its spatial and temporal trends can support the Epidemiological and Entomological Surveillance actions of Health Departments. These studies can help to identify receptive areas for new ACL outbreaks and population groups at higher risk of infection, so that control actions can be better planned and more effective.  Please use Adobe Acrobat Reader to read this book chapter for free.
Just open this same document with Adobe Reader. If you do not have it, you can download it here. You can freely access the chapter at the Web Viewer here.