Correction: Characterization of Tunga penetrans Antigens in Selected Epidemic Areas in Murang'a County in Kenya

Copyright: © 2015 Mwangi et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


Introduction
Tungiasis is normally considered as just an entomological nuisance [1].This make it fail to catch the attention of researchers and health care professionals.Moreover, high incidence rate is normally linked to poverty and lack of proper self hygiene.In Brazil doctors and other health officials neglects this ectoparasite; they hardly diagnose the disease when a patient visits a health centre due to other ailments [2].The pathology and body immune responses associated with this ectoparasite are not well understood that could be basis for a lasting solution [3].Therefore, failure to understand the biological behaviors of these parasites and characteristic of their antigens has contributed to unspecific and ineffective intervention strategies.Communities have all along depended on traditional methods that are not just ineffective [4] but can also lead to spread of HIV through sharing contaminated sharp objects.
Most of studies in this area have shown prevalence of tungiasis of about 16%-55% in endemic regions.The highest prevalence have been found in age bracket of 5-14 years and also in the old people, with a higher prevalence in males when compared to females [4], [5], [6], [7], [8], [9].General observations have shown that tungiasis affects normal learning of school children being a major cause of school dropout.Severe itching, pain, difficulty in walking to school and stigma are some of the factors that make it hard for pupils to concentrate in class, or remain in school.More over infested adults are unable to attend to their economic activities such as farming; are unable to feed well and malnutrition is not uncommon.In Kenya, the prevalence of jiggers in Murang'a south district was suggested to be 57% in children of 5-12 yrs [10].Moreover, poor hygiene has been identified as a major cause of jigger infestation in Kenya [11].In addition the soil factors such as soil moisture, organic matter content, soil pH, soil texture and soil color influences the prevalence of tungiasis by up to 33% and the T. penetrans population by up to 39.7% in Murang'a County [12].
Documentation of studies investigating antigen-antibody reaction in tungiasis is however scarce.Nonetheless, at in South America the level cytokines in serum from infested people were determined.Jigger infestation was found to cause Th 1 and Th 2 mixed responses.Inflammatory cytokines such as TNF α and IFN γ were found to be in high concentrations; IL 4 was in slightly higher concentrations.Th 1 immune responses were shown by increased TNF α /IL 4 ratio in people infested with T. penetrans to controls of patients infested with soil transmitted helminthes [13].
Documented studies in molecular characterization of T. penetrans antigens are also scarce.However in South America (Fortaleza, Brazil), ITS-1 spacer region of the jiggers flea from Brazil was compared with that from some countries in African continent (Kenya, Cameroon and Togo).There were significant variations in length brought about by repeated sequences of 99 base pairs [14].Fleas of various species were investigated portraying notable variations of sequences in species [15], [16].This information has however been used mainly for phylogenetic studies at levels below the species.In other genetic diversity studies isolates of T. penetrans from humans and pets such as dogs and cats, were observed to have sequences that were identical.When this was compared to isolates from T. penetrans from other animals such as rats and pigs sequence differences of about 49 percent was observed.This presumes existence new species of T. penetrans [16].
This study therefore aimed at characterizing jiggers antigens to identify immunodominant ones to help understand immunological behavior of the parasite.These results are important since they would create basis for designing and improving approaches against jiggers based on body immune responses to supplement social science approaches.

Sample collection
Samples for laboratory analysis were gravid female fleas that were extracted from infested individuals in Kahuro and Murang'a East district in Murang'a County.The specimens were put in 100μl of PBS and kept in low temperature of about 4°C.Venipuncture was used to collect 5 milliliters of blood samples from patient's antecubital area of the arm and drained into EDTA tubes.This was later centrifuged at 1000 rpm for 10 minutes; serum collected and kept in a -20°C deep freezer.
To raise sera from laboratory rats 2ml of jiggers isolates in 1ml complete Freud's adjuvant was prepared.This was used to immunize five albino laboratory rats (Rattus norvegicus) at intervals of 3 weeks, up to four times.Blood sample from the rats was drawn from the tail vein each time just before the next immunization.The rats were later sacrificed and more blood samples that was collected in veils for serum preparation.The serum was kept in a -20°C deep freezer until used.

Sample preparation
Protein extraction (freeze and thaw).Protein extraction involved mechanical crushing of 30 gravid female jiggers in 2ml of PBS in a clean sterilized 5ml bijou bottles using a clean sterilized glass rod to avoid contamination.This was followed by freezing the proteins in a deep freezer at -20°C for 1 hour, and thawing it for 1 hour at 25°C to extract soluble proteins.This process was repeated five times after which centrifugation of the products were done at 1000 revolutions per minute in time of 10 minutes at a temperature 25°C.Debris was discarded while the supernatant retained as the extracted protein sample.
Immunization of rats.Immunization of rats involved mixing 2ml of the extracted antigens with 1ml of complete Freud's adjuvant (ratio of 2:1).This was used to immunize 5 rats each with 0.5ml of the mixture in the thigh muscle (intra-muscular injection).Four immunizations were done in intervals of three weeks.Before each immunization, blood from the tail vein was withdrawn, serum extracted and later tested for antibodies using double immunodiffusion method.Three weeks after the fourth immunization the rats were sacrificed and serum prepared for immunodiffusion.
Ouchterlony double immunodiffusion and immunoelectrphoresis.Briefly, on agar gel prepared on a glass slide, six wells in a row parallel to another were made.Extracted jigger proteins (12.50μl) was added into each of the four wells against equal volume of rat serum in the corresponding wells, the first well having a positive control and the last one a negative control.The slides were then incubated at 25°C for 48hrs for Ag-Ab complexes to form.This procedure was done in accordance to a standard protocol [17].For comparison purposes T. penetrans antigens were further analyzed in immunoelectrophoresis [18].
Sodium Dodecyl Sulfate Polyacrylamide Gel Electrophoresis technique (SDS-PAGE).In this study SDS-PAGE technique was used whereby protein molecules with similar charge to weight ratio were electrophoretically separated according to their size and shape with smaller molecules moving faster than smaller ones [19].This procedure was conducted in accordance to the standard protocol [19], [20] and as per instructions given by manufacturer manual.
Western blot technique.Briefly, Western blot was used to whereby protein bands on gel electrophoresis were electrophoretically transferred onto a nitrocellulose paper.They were probed with antibodies specific to the protein being targeted in the serum in serial dilutions of 1:25, 1:50, 1:100, 1:200, and 1:400.This was then incubated with secondary antibody conjugate (Anti human Horseradish peroxidase) and then treated with a substrate for chemiluminescence.The actual procedure was conducted according to the standard protocol in Western blot [21].

Data analysis
Data was analyzed using SPSS program whereby simple regression analysis was used to estimate the molecular weights of the unknown immune dominant antigens in jiggers.

Characterization of Tunga penetrans antigens
Result shows that immunized rats reacted to T. penetrans antigens after 3 rd and 4 th immunization whereby only one precipitate band was formed in double immunodiffusion assay (Fig. 1).This was comparable to results of immunoelectrphoresis, whereby only one precipitate arc was formed (Fig. 2).
Tunga penetrans antigens were further analyzed in SDS-PAGE (Fig. 3).Result shows that separated jigger antigenic protein are all of medium to low molecular weights.Separated T. penetrans antigens were further characterized in Western blot (Fig. 4).Strips numbered 1-5 in I and strips numbered 7-11 in II are replicas comparing results of Western blot whereby T. penetrans antigens reacted with pooled human sera from infested victims.Result shows the

Molecular weight determination of unknown immunodominant protein molecules
Using simple regression analysis (Table 1, Fig. 5) molecular weights of unknown immunodominant antigens labeled A, B, and C 4, I and II) were estimated as 51.795, 23.395 and 15.38 kDa respectively (Table 2).

Discussion
Rats are appropriate animal model in tungiasis studies [22], [23].In the current study immunized rats were found to react to T. penetrans antigens whereby one precipitate band was formed in both immunodiffusion and immunoelectrophoresis assays.This was an important pre-analysis of jigger antibodies prior to analysis of human sera since human immune system could similarly react to the same antigens.This was key as highlighted in Box 1.It was observed that, though one can induce immune responses in animals like rats, the response was limited the same type of protein molecules since only one precipitate band was formed.In addition people too do not react to a variety of jiggers antigens since only three major antigens were observed.This could be attributed to the fact that jiggers being ectoparasites are not largely exposed to systemic circulation.• Reaction of rat (Rattus norvegicus) immune system against jigger antigens • Reaction of human body immune system against jigger antigens • Characterization of immune-dominant antigens in jiggers • Molecular weights of jigger immune-dominant antigens The rate of proteins migration on SDS-PAGE an inversely proportionality to log their Molecular Weight [24].Therefore in this study Phamacia standard protein markers were used to estimate the molecular weight of the unknown proteins that were found to be in the range of 51.795 kDa to 15.38 kDa medium to low molecular weight, an important key point as shown in Box 1.So far presences of anti-jigger against these immunodominant antigens in human blood system have not been shown to confer any protection against infestation or re-infestation.Jigger, being a semi-ectoparasite could be protecting itself through mutations, antigenic camouflage or even immune suppression.However research based evidence to this observation is of paramount importance.Jigger penetration in to the skin of its host is normally accompanied by immediate acute inflammation on the site of the skin penetration which could be a result immunological responses against identified immunodominant antigens in jiggers.This acute inflammation is more pronounced when compared to other skin diseases caused parasites [2].In fact this inflammation has been found to the cause of secondary pathological conditions when human are infested.These are remarkable desquamation of the skin, uneven thickening of the skin and debilitating sequalae such as phagedenic ulcers.Others include tissue necrosis, nail loss and complete loss of fingers or toes [13].This edema is characterized by high levels of agranulocytes such as lymphocytes and granulocytes such as neutrophils and eosinophils [25].If not disinfected, the lesions often become infected with Clostridium tetani.This can result to death if the victims are not vaccinated [2].Domestic animals and pets in endemic areas such as cats, dogs, and pigs also suffer from tungiasis [16].However, when compared to human victims the inflammation is less pronounced.Rats other than mice, for instance Rattus rattus experience local inflammation as a result of jigger infestation in a similar manner to human victims [16].

Conclusion
Human immune system reacts to three major antigens in T. penetrans when infested.These antigens of molecular weight 51.795 kDa, 23.395 kDa and 15.38 kDa are associated with immunological reactions such as inflammation observed when one is infested.

Fig 1 .
Fig 1. Analysis of Tunga penetrans antigens using sera from immunized rats in Ouchterlony double immunodiffusion assay.Positive controls include sheep serum as antigen and anti sheep as antibodies.Negative controls used were T. penetrans protein extracts as antigens and buffer (PBS) in place of serum.Test samples were jigger protein extracts antigen.Anti jigger serum was from immunized rats.doi:10.1371/journal.pntd.0003517.g001

Fig 2 .Fig 3 .
Fig 2. Analysis of Tunga penetrans antigens using sera from immunized rats in immunoelectrphoresis assay.The antigens comprised of T. penetrans protein extracts antigen that was electrophoresed in the gel before addition of serum.The antibodies were serum obtained from the rats in their 4 th immunization stage.doi:10.1371/journal.pntd.0003517.g002

Fig 4 .
Fig 4. Analysis of T. penetrans antigens in Western blot using pooled sera from jigger infested patients.The positive control is a standard protein marker from Pharmacia Ltd.Negative control in I (strip 6), is a buffer (PBS) control.Negative control in II, (strip 12) is a conjugate control (Anti human secondary Antibody bound to Horseradish peroxidase enzyme).Strips No. 1-5 and 7-11 are replicas (except negative controls) of protein bands that reacted with pooled sera from patients infested with jiggers at various dilutions.Serum dilutions of 1:25, 1:50, 1:100, 1:200, and 1:400 corresponds to strips number 1-5 and number 7-11 respectively.doi:10.1371/journal.pntd.0003517.g004

Fig 5 .
Fig 5.A Graph of R f values of Phamacia standard protein markers plotted against Log 10 of their molecular weight values.A linear trend line was applied and the graph equation calculated as y = -1.043x+5.227.Molecular weight range was 14.4-94 kilo Daltons.doi:10.1371/journal.pntd.0003517.g005

Table 1 .
Molecular weights of Phamacia standard protein markers with Log 10 and R f values.

Table 2 .
Immunodominant antigenic proteins, their R f values and Molecular Weights (kilo Daltons).