Mouse models of Loa loa

Pionnier, Nicolas; Sjoberg, Hanna; Chunda, Valerine C.; Fombad, Fanny Fri; Chounna, Patrick W. N.; Njouendou, Abdel Jélil; Metuge, Haelly M.; Ndzeshang, Bertrand L.; Gandjui, Narcisse Victor T.; Akumtoh, Desmond N.; Tayong, Dizzle Bita; Taylor, Mark J.; Wanji, Samuel; Turner, Joseph D.

doi:10.1038/s41467-019-09442-0

Cited by 35 publications

(61 citation statements)

References 45 publications

(68 reference statements)

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“…In addition, their spectra can be easily adjusted and are diverse. 27,28 This series of BMN-Fluors, which are in constant rotation in a free state, can sequentially self-regulate their conformations to form different stable conformations when they encounter the AP site. BMN-Fluors can emit different types of signals, including an "OFF-ON" single-channel signal, a "ratio" double-channel signal, and even a precise multichannel signal.…”

Section: Introductionmentioning

confidence: 99%

Ultrasensitive recognition of AP sites in DNA at the single-cell level: one molecular rotor sequentially self-regulated to form multiple different stable conformations

et al. 2019

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Section: Introductionmentioning

confidence: 99%

Ultrasensitive recognition of AP sites in DNA at the single-cell level: one molecular rotor sequentially self-regulated to form multiple different stable conformations

et al. 2019

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“…A major reason for the limited understanding of loiasis-associated immune responses and clinical picture [29,30] is the lack of appropriate infection models. Besides the established rodent models of Brugia malayi and Onchocerca volvulus [23,[31][32][33], we recently showed that BALB/c with impaired IL-4, IL-5 and IL-13 signalling as well as a lymphopenic γc-deficient strain allow development of L. loa life stages [22,34]. This was also reflected in our studies with the rodent Litomosoides sigmodontis model since in IL-4Rα/IL-5 −/− BALB/c mice, worm burden and MF counts were significantly higher than in wildtype BALB/c control groups [35], suggesting that principally mice lacking Th2 responses provide a better environment for worm growth.…”

Section: Discussionmentioning

confidence: 99%

“…Simultaneously, groups of female and male wildtype BALB/c mice were exposed to either: (i) a s.c. injection of 500 L3 in 100 µl RPMI-1640 medium isolated from Chrysops flies; (ii) 10,000 MF via the tail vein in 100 µl RPMI-1640 medium isolated from human peripheral blood [22], or (iii) 10 L4; (iv) 10 L5; and (v) 10 adult worms all isolated from infected-BALB/cRAG2γc −/− mice. Whereas L4 were injected s.c. in 100 µl of RPMI-medium, L5 and adult stages were implanted as previously described [23].…”

Section: Pre-clinical Experimental Studies With Different Loa Loa Lifmentioning

confidence: 99%

Comparison of immune responses to Loa loa stage-specific antigen extracts in Loa loa-exposed BALB/c mice upon clearance of infection

Chunda¹,

Ritter

Bate³

et al. 2020

Parasites Vectors

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Background: Different immune mechanisms are capable of killing developmental stages of filarial nematodes and these mechanisms are also likely to vary between the primary and a challenge infection. However, the lack of a detailed analysis of cytokine, chemokine and immunoglobulin levels in human loiasis is still evident. Therefore, detailed analysis of immune responses induced by the different developmental stages of Loa loa in immune-competent BALB/c mice will aid in the characterization of distinct immune responses that are important for the immunity against loiasis. Methods: Different developmental stages of L. loa were obtained from human peripheral blood (microfilariae, MF), the transmitting vector, Chrysops (larval stage 3, L3) and infected immune-deficient BALB/cRAG2γc −/− mice (L4, L5, adult worms). Groups of wildtype BALB/c mice were then injected with the isolated stages and after 42 days postinfection (pi), systemic cytokine, chemokine and immunoglobulin levels were determined. These were then compared to L. loa-specific responses from in vitro re-stimulated splenocytes from individual mice. All parameters were determined using Luminex technology. Results: In a pilot study, BALB/c mice cleared the different life stages of L. loa within 42 days pi and systemic cytokine, chemokine and immunoglobulin levels were equal between infected and naive mice. Nevertheless, L. loa-specific re-stimulation of splenocytes from mice infected with L5, MF or adult worms led to induction of Th2, Th17 and chemokine secretion patterns. Conclusions: This study shows that although host immunity remains comparable to naive mice, clearance of L. loa life-cycle development stages can induce immune cell memory leading to cytokine, chemokine and immunoglobulins secretion patterns which might contribute to immunity and protection against reinfection.

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“…Intrathoracic injections of flies with mf bypass feeding of flies on donors, and therefore address the ethical concerns of human landing catch. The use of animal sources of mf, such as splenectomised baboons [11] or immunodeficient mice [18] would potentially completely obviate the use of human donors and may achieve a complete laboratory life cycle local to a source of wild-caught vectors. Further, high yielding production of L3 following experimental infections of Chrysops would be a significant improvement in throughput for translational medicine applications compared to standard methods.…”

Section: Introductionmentioning

confidence: 99%

“…Further, high yielding production of L3 following experimental infections of Chrysops would be a significant improvement in throughput for translational medicine applications compared to standard methods. In this study, we assessed if intrathoracic L. loa mf injected C. silacea can survive under laboratory conditions for a minimum of two weeks and whether L3 infective larvae recovered from lab maintained flies could maintain their viability and development both in vitro and in vivo taking advantage of recent advances in L. loa culture systems and mouse models developed by our laboratories [12,18].…”

Section: Introductionmentioning

confidence: 99%

Generation of Loa loa infective larvae by experimental infection of the vector, Chrysops silacea

et al. 2020

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Basic and translational research on loiasis, a filarial nematode infection of medical importance, is impeded by a lack of suitable Loa loa infection models and techniques of obtaining and culturing life cycle stages. We describe the development of a new method for routine production of infective third-stage larvae (L3) of L. loa from the natural intermediate arthropod vector host, Chrysops silacea, following experimental infection with purified microfilariae. At 14-days post-infection of C. silacea, the fly survival rate was 43%. Survival was significantly higher in flies injected with 50 mf (55.2%) than those that received 100 mf (31.0%). However, yield per surviving fly and total yield of L3 was markedly higher in the group of flies inoculated with 100 mf (3474 vs 2462 L3 produced). The abdominal segment hosted the highest percentage recovery of L3 (47.7%) followed by head (34.5%) and thorax (17.9%). L. loa larval survival was higher than 90% after 30 days of in vitro culture. The in vitro moulting success rate to the L4 larval stage was 59.1%. After experimental infection of RAG2-/-IL-2γc-/mice, the average L. loa juvenile adult worm recovery rate was 10.5% at 62 dpi. More than 87% of the worms were recovered from the muscles and subcutaneous tissues. Worms recovered measured an average 24.3 mm and 11.4 mm in length for females (n = 5) and males (n = 5), respectively. In conclusion, L. loa mf injected into C. silacea intrathoracically develop into infective larvae that remain viable and infective comparable to L3 obtained through natural feeding on the human host. This technique further advances the development of a full laboratory life cycle of L. loa where mf derived from experimentallyinfected animals may be utilized to passage life cycle generations via intrathoracic injections of wild-caught vector hosts.

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Mouse models of Loa loa

Cited by 35 publications

References 45 publications

Ultrasensitive recognition of AP sites in DNA at the single-cell level: one molecular rotor sequentially self-regulated to form multiple different stable conformations

Ultrasensitive recognition of AP sites in DNA at the single-cell level: one molecular rotor sequentially self-regulated to form multiple different stable conformations

Comparison of immune responses to Loa loa stage-specific antigen extracts in Loa loa-exposed BALB/c mice upon clearance of infection

Generation of Loa loa infective larvae by experimental infection of the vector, Chrysops silacea

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