Aping Jane Goodall: insights into human lymphatic filariasis

The relationship between infection and disease has been a subject of intense debate in human filariasis. Most patients with chronic disease such as lymphedema or elephantiasis are free of demonstrable current infection. Based on cross-sectional data and a few assumptions and presumptions, two models of natural history of filariasis have been in vogue during the past two decades. The only (but arduous) way to understand the sequence of events is to follow up subjects with and without patent infections over a period of several years. This article offers critical comments and highlights the insights acquired from such studies.     

Immune dynamics in the pathogenesis of human lymphatic filariasis

Despite the longstanding recognition of the spectral nature of human disease due to lymphatic filariasis, immunologists interested in pathogenesis have mostly examined patients classified as being at either one extreme pole or the other. While the clinically asymptomatic individuals with microfilaremia who sit at one pole always have active infection, it has been difficult to define who else on the clinical spectrum is actively infected with living adult worms. In this review, David Freedman discusses how the ability to measure circulating filarial antigen in patient serum has advanced our ability to understand the immunopathogenesis of lymphatic filariasis by improving the precision of patient classification. Recent work suggests that the presence (or absence) of antigenemia, rather than overt clinical manifestations of disease, is closely associated with specific cytokine responses. A framework for patient classification based on these findings is proposed.     

A model for the dynamics of human lymphatic filariasis

In this paper, Bryan Gren fell, Edwin Michael and David Denham review the appropriateness of feline filariasis as a model of the population dynamics of human lymphatic filarial infection and disease. Because of the longevity of infection and our inability to measure the adult parasite population in humans, research in filariasis is particularly dependent on the use of laboratory animal models. We demonstrate that Brugia pahangi infection patterns in the cat closely parallel those of Brugia and Wuchereria in humans. Although primary infections in 'susceptible' cats are long-lived, repeatedly infected animals show evidence of concomitant immunity which prevents the establishment of later cohorts of infective larvae. Furthermore, there is some evidence from macro filarial length distributions of 'stunting' of adult worms during long-term repeat infections. Cats can also show an 'acute' response that spontaneously eliminates infections, and this appears to be due to a combination of intrinsic and dynamic mechanisms. As in humans, pathology in cat filariasis develops as a sequel to the asymptomatic microfilaremic state, largely as a result of re-expression of immunity. The relationship between macro filarial burdens and microfilariae in blood is positive but portrays a high degree of variability. The cat model provides an important tool for elucidating the relationships between infection, immunity and disease dynamics in lymphatic filariasis, and we conclude by suggesting directions for further work in this area.     

Mapping of lymphatic filariasis in Nepal

BACKGROUND: Human infection with Wuchereria bancrofti causes a disabling parasitic disease known as lymphatic filariasis, which is a major public health and socio-economic problem in many parts of the world. At the onset of the study, little was known of the distribution of filariasis and its current importance as a public health problem in Nepal. METHODS: Epidemiological mapping was undertaken to determine the prevalence of infection by Wuchereria bancrofti in 37 districts of Nepal between July to December 2001. The study population above 15 years of age was selected, and the immunochromatographic test (ICT Filariasis) was used to screen for circulating filarial antigen (CFA). RESULTS: The overall prevalence of lymphatic filariasis from a 4,488-sample population was 13% and 33/37 districts were found to be endemic. On the basis of geographical data, the highest number of cases was found at altitudes between 500-700 m; however, a substantial number of infected individuals were found in the highly populated Kathmandu valley, at altitudes between 900-1,500 metres where transmission appears to take place. Prevalence rates above 20% were found in 11 districts (with the highest rate of 40%), 6-19% were found in 15 districts, and 0.1-5% were in 7 districts.Information on people's knowledge, attitudes and behaviour towards filariasis was also collected by means of a structured questionnaire, which is presented and discussed in the study. CONCLUSIONS: This is the most extensive study of lymphatic filariasis undertaken to date in Nepal. The study indicates that the prevalence of infection is far greater that was previously reported and that lymphatic filariasis should be a much higher health priority than currently given.     

Regulatory T cells in acute and chronic human Chikungunya infection

Chikungunya virus (CHIKV) infection generates strong immune responses that are associated with the disease pathophysiology. Regulatory T cells (Treg-cluster of differentiation (CD)-4⁺CD25^highforkhead box P3 (FOXP3⁺)) are essential for the induction and maintenance of peripheral tolerance. Thus, they play key roles in determining the patient prognosis by preventing excessive immune responses via different suppression immune mechanisms. However, the regulatory mechanisms involved in human CHIKV infection are still poorly understood. Here, we characterize for the first time the Treg cell molecule-associated-mechanism during acute and chronic human Chikungunya disease. Here, we assessed the Treg cell population and molecule-associated mechanism in the peripheral blood samples of acute and chronic patients with Chikungunya. Our results indicate that CHIKV infection is associated with reduced frequency of Tregs, along with the impaired expression and production of Treg functional markers, including CD39, CD73, perforin, granzyme, programmed death 1 (PD-1), cytotoxic T lymphocyte antigen (CTLA)-4, and transforming growth factor (TGF)-β. This observation suggests that Treg cells possess the poor regulatory capacity in both acute and chronic phases of the disease. Taken together, these data provide significant evidence that the imbalanced response of Treg cells plays an essential role in establishing the pathogenesis of Chikungunya.     

Regulatory and activated T cells in human Schistosoma haematobium infections

Acquired immunity against helminths is characterised by a complex interplay between the effector Th1 and Th2 immune responses and it slowly manifests with age as a result of cumulative exposure to parasite antigens. Data from experimental models suggest that immunity is also influenced by regulatory T cells (Treg), but as yet studies on Treg in human schistosome infections are limited. This study investigated the relationship between schistosome infection intensity and the two cell populations regulatory T cells (TREG: CD4(+(dim))CD25(+(high))FOXP3(+)CD127(low)), and activated (Tact: CD4(+)CD25(+)FOXP3(-)) T cells in Zimbabweans exposed to Schistosoma haematobium parasites. Participants were partitioned into two age groups, young children (8-13 years) in whom schistosome infection levels were rising to peak and older people (14+ years) with declining infection levels. The relationship between Tact proportions and schistosome infection intensity remained unchanged with age. However Treg proportions rose significantly with increasing infection in the younger age group. In contrast Treg were negatively correlated to infection intensity in the older age group. The relative proportions of regulatory T cells differ significantly between young individuals in whom high infection is associated with an enhanced regulatory phenotype and older infected patients in whom the regulatory response is attenuated. This may influence or reflect different stages of the development of protective schistosome acquired immunity and immunopathogenesis.     

Genetic determinism of parasitic circadian periodicity and subperiodicity in human lymphatic filariasis

The larval parasites of the pantropical lymphatic filariasis exhibit two types of circadian behaviour. Typically, they only appear in the human bloodstream at nighttime, synchronised with their mosquito vectors. In Polynesia and parts of Southeast Asia, free of nocturnal vectors, they are found at all hours, and each population biorhythm differs. Through a geometrical approach, we explain this circadian diversity by a single, dominant mutation: the clocks of individual parasites are set at midnight (ubiquitous) or at 2 p.m. Compared to other circadian genes, this mutation must be very old, as it is shared by four biologically remote genera of parasites. This seniority sheds new light on several theoretical and practical aspects of vector-parasite temporal relations.     

Transmission intensity determines lymphocyte responsiveness and cytokine bias in human lymphatic filariasis

Humans living in areas where filariasis is endemic vary greatly in their exposure to mosquito-borne infective third-stage larvae (L3) of these parasitic helminths. Because the intensity of exposure to Ags affects T cell differentiation and susceptibility to parasitic infections in murine models, we compared T cell and cytokine responses in 97 residents of two villages in Papua New Guinea, where transmission intensity of Wuchereria bancrofti differed by 63-fold (37 vs 2355 L3 per person per year). Residents of the high transmission village had 4- to 11-fold lower proliferation and IFN-gamma responses to filarial Ags, nonparasite Ag, and PHA by PBMC compared with the low transmission village (p < 0.01) even when subjects were matched for intensity of infection. In contrast, filarial Ag-driven IL-5 production was 5.5-fold greater (p < 0.001), and plasma IL-4 and TGF-beta levels were 4-fold and 34% higher, respectively, in residents of the high transmission village. IL-4 and IL-10 responses by PBMC differed little according to village, and increased production of the counterregulatory cytokines IL-10 or TGF-beta by PBMC did not correlate with weak proliferation and IFN-gamma responses. Plasma IL-5, IFN-gamma, and IL-10 levels were similar in the two villages. These data demonstrate that the intensity of exposure to L3 affects lymphocyte responsiveness and cytokine bias possibly by a mechanism that alters APC function.     

T-cell activation and the balance of antibody isotypes in human lymphatic filariasis

Human filarial infection presents a spectrum of clinical states with two major poles: asymptomatic microfilaraemia and amicrofilaraemic chronic disease. Microfilaremia is associated with a Th1-type tolerance, and maximal IgG4 antibodies, while elephantiasis patients react across a broad range of immune parameters. In this review, Rick Maizels and his colleagues discuss recent advances in the immunology of human filariasis and present a summary of their latest studies in an endemic area of Indonesia.     

Towards elimination of lymphatic filariasis in India

The global initiatives to eliminate lymphatic filariasis as a public health problem by the year 2020 have generated a great deal of debate in India, the largest endemic country. This has led to a shift in the focus from control to elimination of the disease. Although the campaign to eliminate filariasis has begun, much more needs to be done. Several recent research studies have provided an insight into various operational issues and prospects of elimination of lymphatic filariasis. In this article, the current scenario, recent research results, logistics and the prospects of eliminating lymphatic filariasis in India will be discussed.     

An analysis of in vitro B cell immune responsiveness in human lymphatic filariasis

The immunoregulatory mechanisms involved in B cell function in patients with varying clinical manifestations of bancroftian filariasis were examined by studying the ability of peripheral blood mononuclear cells (PBMC) or PBMC subpopulations from patients with elephantiasis, asymptomatic microfilaremia (MF), and acute tropical pulmonary eosinophilia (TPE) to produce polyclonal and parasite-specific antibody in vitro, both spontaneously and in response to a mitogen (PWM) and to parasite antigen. When the spontaneous or mitogen-driven polyclonal responses were examined, all groups produced significant amounts of IgM and IgG; those with TPE produced extremely high levels. However, when in vitro parasite antigen-specific responses were examined, those with MF were unable to produce filaria-specific antibody either spontaneously or in response to PWM or parasite antigen; in contrast, patients with chronic lymphatic obstruction or TPE produced large quantities. Removal of neither adherent cells nor T8+ T cells affected the parasite-specific B cell anergy seen in those with MF. This absent or severely diminished capacity to produce antibody on parasite antigenic stimulation in patients with MF is likely responsible for the low levels of parasite-specific antibody seen in this most common clinical manifestation of bancroftian filariasis. Its inability to be reversed by the removal of "suppressor elements" suggests a state of B cell unresponsiveness to the parasite.     

The endemic normal in lymphatic filariasis: A static concept

Residents of areas endemic for lymphatic filariasis are continually exposed to infection with mosquito-transmitted infective larvae (L3), some of which survive to become adult worms and subsequently produce micro filarial (mf) transmission stages. The question of whether naturally acquired resistance occurs in adult residents of endemic areas has recently become of interest as the development of molecular vaccines against filarial parasites is being considered(1,2). There have been two epidemiological approaches to demonstrate acquired resistance to Filariasis in human populations. In this review Karen Day examines both approaches in the context of an immunoepidemiological study of bancroftian filariasis in Papua New Guinea (PNG). The merits of each as a conceptual framework for studies of protective immunity in lymphatic filariasis will be discussed.