PCR Detection of Entamoeba histolytica in Microscopically Positive Stool Samples of Hospital Patients in Soroti, Eastern Uganda

Amoebiasis is an infection caused by water borne protozoan parasite Entamoeba histolytica. In Uganda where sanitation infrastructure and health education was not adequate, amoebiasis was thought to be still an important health problem. However there was little or no data on prevalence of this very important protozoan infection. In addition, microscopy remained the main method for the diagnosis of amoebiasis but could not differentiate between Entamoeba dispar/moshkovskii and Entamoeba histolytica infections. This made determination of true prevalence of Entamoeba histolytica infections difficult. It was against this background that this study was designed to carry out species specific diagnosis of Entamoeba histolytica and Entamoeba dispar/moshkovskii in Uganda where these species had been reported to be endemic. This study used microscopy and polymerase chain reaction amplification of Serine-rich Entamoeba histolytica (SREHP) gene. It was shown that 36.7% (n=22) of the samples initially diagnosed as positive by microscopy were positive by PCR. The true prevalence of E. histolytica and E.dispar/ moshkovskii was found to be 7.31% and 12.6% respectively. It was concluded that Entamoeba infection in Soroti, Eastern Uganda is more frequently due to E. dispar /moshkovskii (13.3%) the non-pathogenic forms than to E. histolytica, the pathogen (7.31%).Key words: Entamoeba histolytica, Microscopy, Polymerase chain reaction, Prevalence

Immune responses and protection induced by mucosal and systemic immunisation with recombinant measles nucleoprotein in a mouse model of measles virus-induced encephalitis.

In this study the immunogenicity of recombinant nucleoprotein (Np) administered intranasally or intraperitoneally, and its ability to support a systemic protective anti-virus antibody response was examined, in a mouse model of measles virus (MV)-induced encephalitis. Although both intranasal and intraperitoneal routes of immunisation resulted in priming Np- and MV-specific T-cell responses, the intraperitoneal route was shown to prime for a predominantly IgG2a serum anti-MV antibody response of high avidity, which confered complete protection following intracranial challenge with a neuroadapted strain of MV. On the other hand, intranasal priming resulted in a mixed IgG1, IgG2a serum anti-MV antibody response of low avidity, and only 43% of immunised mice survived following intracranial challenge with the neuroadapted strain of MV. These findings suggest that the route of immunisation in combination with an appropriate adjuvant could influence the induction of a quality antibody response with protective capacity

The role of Escherichia coli in the etiology of piglet diarrhea in selected pig producing districts of central Uganda

Background: Pig production in Uganda is highly constrained by rampant piglet mortalities with diarrhea being a key feature. The present study was conducted to determine possible involvement of Escherichia coli (E. coli) as agents of diarrhea in piglets and elucidate the factors for their spread and virulence, towards development of mitigation strategies in the smallholder pig value chains in Uganda. Methodology: This was a cross-sectional study carried out from January to August 2020 on pre- and post-weaned piglets from households in Kayunga and Mityana districts of Central Uganda, selected by snowballing method to redundancy. Data about herd management and risk factors for colibacillosis were collected from selected farmers in the two districts. A total of 179 faecal samples were collected from randomly selected neonatal and pre-weaning piglets for bacteriological isolation of Escherichia coli. Virulence (enterotoxin and fimbrial) genes from the isolates were detected by multiplex polymerase chain reaction (PCR) assay. Results: From the 179 faecal samples, a total of 158 (88.3%) E. coli isolates were obtained. Virulence gene markers were detected in 18.4% (29/158) of the isolates. Among the investigated genes encoding for enterotoxin production, STb was the most prevalent (16/158, 10.13%), followed by STa (12/158, 7.59%), while gene for LT was not detected. The gene coding for F4 adhesin was the only one detected while F18 adhesin was not detected from the isolates. On multiple logistic regression analysis, only tertiary educational level (OR=0.141; 95% CI=0.30-0.666; p=0.013) and infrequent use of antibiotics (OR=0.231, 95% CI=0.062-0.859; p=0.029) among the farmers, were the two factors significantly protective of the piglets from diarrhoea. Conclusion: This study reports a high prevalence of enterotoxin gene markers among E. coli isolates in piglets and revealed the potential role of these bacteria in the aetiology of piglet diarrhoea and mortalities in Uganda. Additionally, this study identified risk factors that can be useful in formulating treatment and control strategies of infection caused by these bacteria. Further studies are needed to identify more adhesins these E. coli isolates employ for intestinal colonization, a step that will help inform vaccine development.   French title: Le rôle d'Escherichia coli dans l'étiologie de la diarrhée des porcelets dans certains districts producteurs de porcs du centre de l'Ouganda   Contexte: La production porcine en Ouganda est fortement limitée par la mortalité généralisée des porcelets, la diarrhée étant une caractéristique clé. La présente étude a été menée pour déterminer l'implication possible Escherichia coli piglet diarrhea in Uganda  d'Escherichia coli (E. coli) en tant qu'agents de diarrhée chez les porcelets et élucider les facteurs de leur propagation et de leur virulence, vers le développement de stratégies d'atténuation dans les chaînes de valeur des petits producteurs de porcs en Ouganda. Méthodologie: Il s'agit d'une étude transversale réalisée de janvier à août 2020 sur des porcelets pré- et post-sevrés issus de ménages des districts de Kayunga et Mityana du centre de l'Ouganda, sélectionnés par la méthode boule de neige jusqu'à la redondance. Les données sur la gestion du troupeau et les facteurs de risque de colibacillose ont été recueillies auprès d'éleveurs sélectionnés dans les deux districts. Au total, 179 échantillons de matières fécales ont été prélevés sur des porcelets néonatals et en pré-sevrage sélectionnés au hasard pour l'isolement bactériologique d'Escherichia coli. Les gènes de virulence (entérotoxine et fimbrial) des isolats ont été détectés par une amplification en chaîne par polymérase (PCR) multiplex. Résultats: À partir des 179 échantillons de matières fécales, un total de 158 (88,3%) isolats d'E. coli ont été obtenus. Des marqueurs du gène de virulence ont été détectés dans 18,4% (29/158) des isolats. Parmi les gènes étudiés codant pour la production d'entérotoxines, STb était le plus répandu (16/158, 10,13%), suivi de STa (12/158, 7,59%), tandis que le gène de la LT n'a pas été détecté. Le gène codant pour l'adhésine F4 était le seul détecté alors que l'adhésine F18 n'a pas été détectée dans les isolats. Sur l'analyse de régression logistique multiple, seul le niveau d'enseignement supérieur (OR=0,141; IC à 95%=0,30-0,666; p=0,013) et l'utilisation peu fréquente d'antibiotiques (OR=0,231, IC à 95 %=0,062-0,859; p=0,029) parmi les éleveurs, étaient les deux facteurs de protection significative des porcelets contre la diarrhée. Conclusion: Cette étude rapporte une prévalence élevée de marqueurs génétiques d'entérotoxines parmi les isolats d'E. coli chez les porcelets et a révélé le rôle potentiel de ces bactéries dans l'étiologie de la diarrhée et de la mortalité des porcelets en Ouganda. De plus, cette étude a identifié des facteurs de risque qui peuvent être utiles dans la formulation de stratégies de traitement et de contrôle de l'infection causée par ces bactéries. D'autres études sont nécessaires pour identifier plus d'adhésines que ces isolats d'E. coli utilisent pour la colonisation intestinale, une étape qui aidera à éclairer le développement de vaccins

Serological and molecular investigation for brucellosis in swine in selected districts of Uganda

Brucellosis is a notifiable zoonotic disease affecting livestock, humans and wildlife in Uganda. Human brucellosis cases are frequently reported and the increasing incidence is suggestive of increasing disease in the livestock population. Pigs are among the livestock species that can be infected with human pathogenic Brucella suis biovars 1 and 3 and can be a significant source of brucellosis for humans. Uganda has a rapidly growing pig population and the pork consumption per capita is the highest in East Africa. The objective of this work was to determine the seroprevalence of brucellosis in Ugandan pigs

Erysipelothrix rhusiopathiae infection in pigs, pork and raw pork handlers in Kamuli District, Eastern Uganda

Erysipelothrix rhusiopathiae is a zoonotic ubiquitous gram-positive bacterium, which causes erysipelas in swine, mammals, birds and erysipeloid in humans. People in contact with animals, animal products or animal wastes are at greatest risk. From June 2013 to December 2015, a multidisciplinary risk assessment was conducted to identify the risks associated with E. rhusiopathiae along the pig value chain in Kamuli District, Eastern Uganda. Quantitative and qualitative methods of data collection were employed. Serum from 460 pigs and 100 fresh pork samples and human EDTA blood was gathered from 302 raw pork handlers (butchers, abattoir workers and housewives), for microbiology cultures and serology. Six focus group discussions were conducted with 26 butchers/abattoir workers and with 26 housewives. Three key informant interviews were conducted with a health assistant, veterinary officer and a nursing officer. Overall, 308/460 (67%) of the pig sera carried antibodies against E. rhusiopathiae. Forty-five percent (45/100, 45%) of the fresh pork samples were contaminated with E. rhusiopathiae and 30/302 (9.9%) of the raw pork handlers were positive for infection with E. rhusiopathiae. The mean age of the raw pork handlers was 38 years, 21/30 (70%) of men were infected compared to 9/30(30%) of the women. The main risk factor for the infection was the type of raw pork handler. Of the abattoir workers 14/38 (47%) were positive, 9/59 (30%) of the butchers and 7/205 (23.3%) of the housewives were infected with E.rhusiopathiae. This is the first ever report of E. rhusiopathiae in pigs and humans in Uganda and East Africa. Previously, the acute form of swine erysipelas may have been confused for other diseases in pigs reported in Uganda which are characterized acute symptoms such as sudden death (for example, African swine fever). We recommend increasing awareness of the disease among animal and human practitioners as treatment is easy and available and vaccination is possible. However, the disease is still unknown to local veterinarians, clinical doctors, meat inspectors, butchers and laboratory personnel. Proper hygiene, regular pork inspection, use of protective wear among people working/ in contact with animals should be promoted. The study was conducted under the Safe Food, Fair Food project led by the International Livestock Research Institute and carried out with the financial support of the Federal Ministry for Economic Cooperation and Development, Germany, and the CGIAR Research Program on Agriculture for Nutrition and Health, led by the International Food Policy Research Institute

Evaluation of the LTK63 adjuvant effect on cellular immune responses to measles virus nucleoprotein

Background: A lot of pathogens enter the body via the nasal route. The construction of non-toxic mutants of heat labile Escherichia coli enterotoxin (LT), which is a potent mucosal adjuvant, represents a major breakthrough for the development of mucosal vaccines. Objective: This study was undertaken to critically evaluate the adjuvanticity of the mutant of LT (LTK63) on the cellular immune responses to intranasally co-administered recombinant measles virus nucleoprotein (rMVNP). Methods: Groups of CBA mice were immunized intranasally with rMVNP with or without LT or LTK63 as adjuvants. Another group was immunized subcutaneously with rMVNP in Freund&apos;s adjuvant. rMVNP and measles virus (MV) were used in a proliferation assay to test the LTK63 potentiating ability to induce T cell responses. Subsequently MVNP synthetic peptides spanning the length of the N protein were used with a proliferation assay to identify the T cell epitopes. Results: Splenocytes from mice immunized intranasally with rMVNP plus LT or LTK63, showed strong dose dependent proliferative responses to both the MVNP and MV. However, proliferative responses from the latter group were significantly lower than the former group (P < 0.05). Splenocytes tested recognized peptides 20, 21, 28, 31, 39, 40 and 50, suggesting these to be among important epitopes. Subcutaneous route was not effective in priming for T cell responses to rMVNP. Conclusion: These data further demonstrate the great potential of LTK63 as a safe mucosal vaccine adjuvant