Your search keyword '"Dobson SL"' showing total 82 results

1. Clinical characteristics with inflammation profiling of long COVID and association with 1-year recovery following hospitalisation in the UK: a prospective observational study

Author

Evans, RA, Leavy, OC, Richardson, M, Elneima, O, McCauley, HJC, Shikotra, A, Singapuri, A, Sereno, M, Saunders, RM, Harris, VC, Houchen-Wolloff, L, Aul, R, Beirne, P, Bolton, CE, Brown, JS, Choudhury, G, Diar-Bakerly, N, Easom, N, Echevarria, C, Fuld, J, Hart, N, Hurst, J, Jones, MG, Parekh, D, Pfeffer, P, Rahman, NM, Rowland-Jones, SL, Shah, AM, Wootton, DG, Chalder, T, Davies, MJ, De Soyza, A, Geddes, JR, Greenhalf, W, Greening, NJ, Heaney, LG, Heller, S, Howard, LS, Jacob, J, Jenkins, RG, Lord, JM, Man, WD-C, McCann, GP, Neubauer, S, Openshaw, PJM, Porter, JC, Rowland, MJ, Scott, JT, Semple, MG, Singh, SJ, Thomas, DC, Toshner, M, Lewis, KE, Thwaites, RS, Briggs, A, Docherty, AB, Kerr, S, Lone, NI, Quint, J, Sheikh, A, Thorpe, M, Zheng, B, Chalmers, JD, Ho, LP, Horsley, A, Marks, M, Poinasamy, K, Raman, B, Harrison, EM, Wain, LV, Brightling, CE, Abel, K, Adamali, H, Adeloye, D, Adeyemi, O, Adrego, R, Jimenez, LAA, Ahmad, S, Haider, NA, Ahmed, R, Ahwireng, N, Ainsworth, M, Al-Sheklly, B, Alamoudi, A, Ali, M, Aljaroof, M, All, AM, Allan, L, Allen, RJ, Allerton, L, Allsop, L, Almeida, P, Altmann, D, Corral, MA, Amoils, S, Anderson, D, Antoniades, C, Arbane, G, Arias, A, Armour, C, Armstrong, L, Armstrong, N, Arnold, D, Arnold, H, Ashish, A, Ashworth, A, Ashworth, M, Aslani, S, Assefa-Kebede, H, Atkin, C, Atkin, P, Aung, H, Austin, L, Avram, C, Ayoub, A, Babores, M, Baggott, R, Bagshaw, J, Baguley, D, Bailey, L, Baillie, JK, Bain, S, Bakali, M, Bakau, M, Baldry, E, Baldwin, D, Ballard, C, Banerjee, A, Bang, B, Barker, RE, Barman, L, Barratt, S, Barrett, F, Basire, D, Basu, N, Bates, M, Bates, A, Batterham, R, Baxendale, H, Bayes, H, Beadsworth, M, Beckett, P, Beggs, M, Begum, M, Bell, D, Bell, R, Bennett, K, Beranova, E, Bermperi, A, Berridge, A, Berry, C, Betts, S, Bevan, E, Bhui, K, Bingham, M, Birchall, K, Bishop, L, Bisnauthsing, K, Blaikely, J, Bloss, A, Bolger, A, Bonnington, J, Botkai, A, Bourne, C, Bourne, M, Bramham, K, Brear, L, Breen, G, Breeze, J, Bright, E, Brill, S, Brindle, K, Broad, L, Broadley, A, Brookes, C, Broome, M, Brown, A, Brown, J, Brown, M, Brown, V, Brown, CW, Brugha, T, Brunskill, N, Buch, M, Buckley, P, Bularga, A, Bullmore, E, Burden, L, Burdett, T, Burn, D, Burns, G, Burns, A, Busby, J, Butcher, R, Butt, A, Byrne, S, Cairns, P, Calder, PC, Calvelo, E, Carborn, H, Card, B, Carr, C, Carr, L, Carson, G, Carter, P, Casey, A, Cassar, M, Cavanagh, J, Chablani, M, Chambers, RC, Chan, F, Channon, KM, Chapman, K, Charalambou, A, Chaudhuri, N, Checkley, A, Chen, J, Cheng, Y, Chetham, L, Childs, C, Chilvers, ER, Chinoy, H, Chiribiri, A, Chong-James, K, Choudhury, N, Chowienczyk, P, Christie, C, Chrystal, M, Clark, D, Clark, C, Clarke, J, Clohisey, S, Coakley, G, Coburn, Z, Coetzee, S, Cole, J, Coleman, C, Conneh, F, Connell, D, Connolly, B, Connor, L, Cook, A, Cooper, B, Cooper, J, Cooper, S, Copeland, D, Cosier, T, Coulding, M, Coupland, C, Cox, E, Craig, T, Crisp, P, Cristiano, D, Crooks, MG, Cross, A, Cruz, I, Cullinan, P, Cuthbertson, D, Daines, L, Dalton, M, Daly, P, Daniels, A, Dark, P, Dasgin, J, David, A, David, C, Davies, E, Davies, F, Davies, G, Davies, GA, Davies, K, Dawson, J, Daynes, E, Deakin, B, Deans, A, Deas, C, Deery, J, Defres, S, Dell, A, Dempsey, K, Denneny, E, Dennis, J, Dewar, A, Dharmagunawardena, R, Dickens, C, Dipper, A, Diver, S, Diwanji, SN, Dixon, M, Djukanovic, R, Dobson, H, Dobson, SL, Donaldson, A, Dong, T, Dormand, N, Dougherty, A, Dowling, R, Drain, S, Draxlbauer, K, Drury, K, Dulawan, P, Dunleavy, A, Dunn, S, Earley, J, Edwards, S, Edwardson, C, El-Taweel, H, Elliott, A, Elliott, K, Ellis, Y, Elmer, A, Evans, D, Evans, H, Evans, J, Evans, R, Evans, RI, Evans, T, Evenden, C, Evison, L, Fabbri, L, Fairbairn, S, Fairman, A, Fallon, K, Faluyi, D, Favager, C, Fayzan, T, Featherstone, J, Felton, T, Finch, J, Finney, S, Finnigan, J, Finnigan, L, Fisher, H, Fletcher, S, Flockton, R, Flynn, M, Foot, H, Foote, D, Ford, A, Forton, D, Fraile, E, Francis, C, Francis, R, Francis, S, Frankel, A, Fraser, E, Free, R, French, N, Fu, X, Furniss, J, Garner, L, Gautam, N, George, J, George, P, Gibbons, M, Gill, M, Gilmour, L, Gleeson, F, Glossop, J, Glover, S, Goodman, N, Goodwin, C, Gooptu, B, Gordon, H, Gorsuch, T, Greatorex, M, Greenhaff, PL, Greenhalgh, A, Greenwood, J, Gregory, H, Gregory, R, Grieve, D, Griffin, D, Griffiths, L, Guerdette, A-M, Guio, BG, Gummadi, M, Gupta, A, Gurram, S, Guthrie, E, Guy, Z, Henson, HH, Hadley, K, Haggar, A, Hainey, K, Hairsine, B, Haldar, P, Hall, I, Hall, L, Halling-Brown, M, Hamil, R, Hancock, A, Hancock, K, Hanley, NA, Haq, S, Hardwick, HE, Hardy, E, Hardy, T, Hargadon, B, Harrington, K, Harris, E, Harrison, P, Harvey, A, Harvey, M, Harvie, M, Haslam, L, Havinden-Williams, M, Hawkes, J, Hawkings, N, Haworth, J, Hayday, A, Haynes, M, Hazeldine, J, Hazelton, T, Heeley, C, Heeney, JL, Heightman, M, Henderson, M, Hesselden, L, Hewitt, M, Highett, V, Hillman, T, Hiwot, T, Hoare, A, Hoare, M, Hockridge, J, Hogarth, P, Holbourn, A, Holden, S, Holdsworth, L, Holgate, D, Holland, M, Holloway, L, Holmes, K, Holmes, M, Holroyd-Hind, B, Holt, L, Hormis, A, Hosseini, A, Hotopf, M, Howard, K, Howell, A, Hufton, E, Hughes, AD, Hughes, J, Hughes, R, Humphries, A, Huneke, N, Hurditch, E, Husain, M, Hussell, T, Hutchinson, J, Ibrahim, W, Ilyas, F, Ingham, J, Ingram, L, Ionita, D, Isaacs, K, Ismail, K, Jackson, T, James, WY, Jarman, C, Jarrold, I, Jarvis, H, Jastrub, R, Jayaraman, B, Jezzard, P, Jiwa, K, Johnson, C, Johnson, S, Johnston, D, Jolley, CJ, Jones, D, Jones, G, Jones, H, Jones, I, Jones, L, Jones, S, Jose, S, Kabir, T, Kaltsakas, G, Kamwa, V, Kanellakis, N, Kaprowska, S, Kausar, Z, Keenan, N, Kelly, S, Kemp, G, Kerslake, H, Key, AL, Khan, F, Khunti, K, Kilroy, S, King, B, King, C, Kingham, L, Kirk, J, Kitterick, P, Klenerman, P, Knibbs, L, Knight, S, Knighton, A, Kon, O, Kon, S, Kon, SS, Koprowska, S, Korszun, A, Koychev, I, Kurasz, C, Kurupati, P, Laing, C, Lamlum, H, Landers, G, Langenberg, C, Lasserson, D, Lavelle-Langham, L, Lawrie, A, Lawson, C, Layton, A, Lea, A, Lee, D, Lee, J-H, Lee, E, Leitch, K, Lenagh, R, Lewis, D, Lewis, J, Lewis, V, Lewis-Burke, N, Li, X, Light, T, Lightstone, L, Lilaonitkul, W, Lim, L, Linford, S, Lingford-Hughes, A, Lipman, M, Liyanage, K, Lloyd, A, Logan, S, Lomas, D, Loosley, R, Lota, H, Lovegrove, W, Lucey, A, Lukaschuk, E, Lye, A, Lynch, C, MacDonald, S, MacGowan, G, Macharia, I, Mackie, J, Macliver, L, Madathil, S, Madzamba, G, Magee, N, Magtoto, MM, Mairs, N, Majeed, N, Major, E, Malein, F, Malim, M, Mallison, G, Mandal, S, Mangion, K, Manisty, C, Manley, R, March, K, Marciniak, S, Marino, P, Mariveles, M, Marouzet, E, Marsh, S, Marshall, B, Marshall, M, Martin, J, Martineau, A, Martinez, LM, Maskell, N, Matila, D, Matimba-Mupaya, W, Matthews, L, Mbuyisa, A, McAdoo, S, McCall, JW, McAllister-Williams, H, McArdle, A, McArdle, P, McAulay, D, McCormick, J, McCormick, W, McCourt, P, McGarvey, L, McGee, C, Mcgee, K, McGinness, J, McGlynn, K, McGovern, A, McGuinness, H, McInnes, IB, McIntosh, J, McIvor, E, McIvor, K, McLeavey, L, McMahon, A, McMahon, MJ, McMorrow, L, Mcnally, T, McNarry, M, McNeill, J, McQueen, A, McShane, H, Mears, C, Megson, C, Megson, S, Mehta, P, Meiring, J, Melling, L, Mencias, M, Menzies, D, Morillas, MM, Michael, A, Milligan, L, Miller, C, Mills, C, Mills, NL, Milner, L, Misra, S, Mitchell, J, Mohamed, A, Mohamed, N, Mohammed, S, Molyneaux, PL, Monteiro, W, Moriera, S, Morley, A, Morrison, L, Morriss, R, Morrow, A, Moss, AJ, Moss, P, Motohashi, K, Msimanga, N, Mukaetova-Ladinska, E, Munawar, U, Murira, J, Nanda, U, Nassa, H, Nasseri, M, Neal, A, Needham, R, Neill, P, Newell, H, Newman, T, Newton-Cox, A, Nicholson, T, Nicoll, D, Nolan, CM, Noonan, MJ, Norman, C, Novotny, P, Nunag, J, Nwafor, L, Nwanguma, U, Nyaboko, J, O'Donnell, K, O'Brien, C, O'Brien, L, O'Regan, D, Odell, N, Ogg, G, Olaosebikan, O, Oliver, C, Omar, Z, Orriss-Dib, L, Osborne, L, Osbourne, R, Ostermann, M, Overton, C, Owen, J, Oxton, J, Pack, J, Pacpaco, E, Paddick, S, Painter, S, Pakzad, A, Palmer, S, Papineni, P, Paques, K, Paradowski, K, Pareek, M, Parfrey, H, Pariante, C, Parker, S, Parkes, M, Parmar, J, Patale, S, Patel, B, Patel, M, Patel, S, Pattenadk, D, Pavlides, M, Payne, S, Pearce, L, Pearl, JE, Peckham, D, Pendlebury, J, Peng, Y, Pennington, C, Peralta, I, Perkins, E, Peterkin, Z, Peto, T, Petousi, N, Petrie, J, Phipps, J, Pimm, J, Hanley, KP, Pius, R, Plant, H, Plein, S, Plekhanova, T, Plowright, M, Polgar, O, Poll, L, Porter, J, Portukhay, S, Powell, N, Prabhu, A, Pratt, J, Price, A, Price, C, Price, D, Price, L, Prickett, A, Propescu, J, Pugmire, S, Quaid, S, Quigley, J, Qureshi, H, Qureshi, IN, Radhakrishnan, K, Ralser, M, Ramos, A, Ramos, H, Rangeley, J, Rangelov, B, Ratcliffe, L, Ravencroft, P, Reddington, A, Reddy, R, Redfearn, H, Redwood, D, Reed, A, Rees, M, Rees, T, Regan, K, Reynolds, W, Ribeiro, C, Richards, A, Richardson, E, Rivera-Ortega, P, Roberts, K, Robertson, E, Robinson, E, Robinson, L, Roche, L, Roddis, C, Rodger, J, Ross, A, Ross, G, Rossdale, J, Rostron, A, Rowe, A, Rowland, A, Rowland, J, Roy, K, Roy, M, Rudan, I, Russell, R, Russell, E, Saalmink, G, Sabit, R, Sage, EK, Samakomva, T, Samani, N, Sampson, C, Samuel, K, Samuel, R, Sanderson, A, Sapey, E, Saralaya, D, Sargant, J, Sarginson, C, Sass, T, Sattar, N, Saunders, K, Saunders, P, Saunders, LC, Savill, H, Saxon, W, Sayer, A, Schronce, J, Schwaeble, W, Scott, K, Selby, N, Sewell, TA, Shah, K, Shah, P, Shankar-Hari, M, Sharma, M, Sharpe, C, Sharpe, M, Shashaa, S, Shaw, A, Shaw, K, Shaw, V, Shelton, S, Shenton, L, Shevket, K, Short, J, Siddique, S, Siddiqui, S, Sidebottom, J, Sigfrid, L, Simons, G, Simpson, J, Simpson, N, Singh, C, Singh, S, Sissons, D, Skeemer, J, Slack, K, Smith, A, Smith, D, Smith, S, Smith, J, Smith, L, Soares, M, Solano, TS, Solly, R, Solstice, AR, Soulsby, T, Southern, D, Sowter, D, Spears, M, Spencer, LG, Speranza, F, Stadon, L, Stanel, S, Steele, N, Steiner, M, Stensel, D, Stephens, G, Stephenson, L, Stern, M, Stewart, I, Stimpson, R, Stockdale, S, Stockley, J, Stoker, W, Stone, R, Storrar, W, Storrie, A, Storton, K, Stringer, E, Strong-Sheldrake, S, Stroud, N, Subbe, C, Sudlow, CL, Suleiman, Z, Summers, C, Summersgill, C, Sutherland, D, Sykes, DL, Sykes, R, Talbot, N, Tan, AL, Tarusan, L, Tavoukjian, V, Taylor, A, Taylor, C, Taylor, J, Te, A, Tedd, H, Tee, CJ, Teixeira, J, Tench, H, Terry, S, Thackray-Nocera, S, Thaivalappil, F, Thamu, B, Thickett, D, Thomas, C, Thomas, S, Thomas, AK, Thomas-Woods, T, Thompson, T, Thompson, AAR, Thornton, T, Tilley, J, Tinker, N, Tiongson, GF, Tobin, M, Tomlinson, J, Tong, C, Touyz, R, Tripp, KA, Tunnicliffe, E, Turnbull, A, Turner, E, Turner, S, Turner, V, Turner, K, Turney, S, Turtle, L, Turton, H, Ugoji, J, Ugwuoke, R, Upthegrove, R, Valabhji, J, Ventura, M, Vere, J, Vickers, C, Vinson, B, Wade, E, Wade, P, Wainwright, T, Wajero, LO, Walder, S, Walker, S, Wall, E, Wallis, T, Walmsley, S, Walsh, JA, Walsh, S, Warburton, L, Ward, TJC, Warwick, K, Wassall, H, Waterson, S, Watson, E, Watson, L, Watson, J, Welch, C, Welch, H, Welsh, B, Wessely, S, West, S, Weston, H, Wheeler, H, White, S, Whitehead, V, Whitney, J, Whittaker, S, Whittam, B, Whitworth, V, Wight, A, Wild, J, Wilkins, M, Wilkinson, D, Williams, N, Williams, J, Williams-Howard, SA, Willicombe, M, Willis, G, Willoughby, J, Wilson, A, Wilson, D, Wilson, I, Window, N, Witham, M, Wolf-Roberts, R, Wood, C, Woodhead, F, Woods, J, Wormleighton, J, Worsley, J, Wraith, D, Wright, C, Wright, L, Wright, S, Wyles, J, Wynter, I, Xu, M, Yasmin, N, Yasmin, S, Yates, T, Yip, KP, Young, B, Young, S, Young, A, Yousuf, AJ, Zawia, A, Zeidan, L, Zhao, B, Zongo, O, Group, The PHOSP-COVID Collaborative, National Institute for Health Research, and UKRI MRC COVID-19 Rapid Response Call

Subjects

Adult, Male, Pulmonary and Respiratory Medicine, Adolescent, PHOSP-COVID Collaborative Group, 1117 Public Health and Health Services, Post-Acute COVID-19 Syndrome, SDG 3 - Good Health and Well-being, Humans, Longitudinal Studies, Obesity, Prospective Studies, long COVID, Retrospective Studies, Inflammation, SARS-CoV-2, COVID-19, 1103 Clinical Sciences, Middle Aged, prospective observational study, United Kingdom, Hospitalization, Quality of Life, Female, 1199 Other Medical and Health Sciences

Abstract

Background No effective pharmacological or non-pharmacological interventions exist for patients with long COVID. We aimed to describe recovery 1 year after hospital discharge for COVID-19, identify factors associated with patient-perceived recovery, and identify potential therapeutic targets by describing the underlying inflammatory profiles of the previously described recovery clusters at 5 months after hospital discharge. Methods The Post-hospitalisation COVID-19 study (PHOSP-COVID) is a prospective, longitudinal cohort study recruiting adults (aged ≥18 years) discharged from hospital with COVID-19 across the UK. Recovery was assessed using patient-reported outcome measures, physical performance, and organ function at 5 months and 1 year after hospital discharge, and stratified by both patient-perceived recovery and recovery cluster. Hierarchical logistic regression modelling was performed for patient-perceived recovery at 1 year. Cluster analysis was done using the clustering large applications k-medoids approach using clinical outcomes at 5 months. Inflammatory protein profiling was analysed from plasma at the 5-month visit. This study is registered on the ISRCTN Registry, ISRCTN10980107, and recruitment is ongoing. Findings 2320 participants discharged from hospital between March 7, 2020, and April 18, 2021, were assessed at 5 months after discharge and 807 (32·7%) participants completed both the 5-month and 1-year visits. 279 (35·6%) of these 807 patients were women and 505 (64·4%) were men, with a mean age of 58·7 (SD 12·5) years, and 224 (27·8%) had received invasive mechanical ventilation (WHO class 7–9). The proportion of patients reporting full recovery was unchanged between 5 months (501 [25·5%] of 1965) and 1 year (232 [28·9%] of 804). Factors associated with being less likely to report full recovery at 1 year were female sex (odds ratio 0·68 [95% CI 0·46–0·99]), obesity (0·50 [0·34–0·74]) and invasive mechanical ventilation (0·42 [0·23–0·76]). Cluster analysis (n=1636) corroborated the previously reported four clusters: very severe, severe, moderate with cognitive impairment, and mild, relating to the severity of physical health, mental health, and cognitive impairment at 5 months. We found increased inflammatory mediators of tissue damage and repair in both the very severe and the moderate with cognitive impairment clusters compared with the mild cluster, including IL-6 concentration, which was increased in both comparisons (n=626 participants). We found a substantial deficit in median EQ-5D-5L utility index from before COVID-19 (retrospective assessment; 0·88 [IQR 0·74–1·00]), at 5 months (0·74 [0·64–0·88]) to 1 year (0·75 [0·62–0·88]), with minimal improvements across all outcome measures at 1 year after discharge in the whole cohort and within each of the four clusters. Interpretation The sequelae of a hospital admission with COVID-19 were substantial 1 year after discharge across a range of health domains, with the minority in our cohort feeling fully recovered. Patient-perceived health-related quality of life was reduced at 1 year compared with before hospital admission. Systematic inflammation and obesity are potential treatable traits that warrant further investigation in clinical trials. Funding UK Research and Innovation and National Institute for Health Research.

Published

2022

2. On the Origin and Evolution of the Mosquito Male-determining Factor Nix.

Author

Biedler JK, Aryan A, Qi Y, Wang A, Martinson EO, Hartman DA, Yang F, Sharma A, Morton KS, Potters M, Chen C, Dobson SL, Ebel GD, Kading RC, Paulson S, Xue RD, Strand MR, and Tu Z

Subjects

Animals, Female, Male, Phylogeny, RNA Splicing, Mosquito Vectors genetics, Aedes genetics, Aedes metabolism

Abstract

The mosquito family Culicidae is divided into 2 subfamilies named the Culicinae and Anophelinae. Nix, the dominant male-determining factor, has only been found in the culicines Aedes aegypti and Aedes albopictus, 2 important arboviral vectors that belong to the subgenus Stegomyia. Here we performed sex-specific whole-genome sequencing and RNAseq of divergent mosquito species and explored additional male-inclusive datasets to investigate the distribution of Nix. Except for the Culex genus, Nix homologs were found in all species surveyed from the Culicinae subfamily, including 12 additional species from 3 highly divergent tribes comprising 4 genera, suggesting Nix originated at least 133 to 165 million years ago (MYA). Heterologous expression of 1 of 3 divergent Nix open reading frames (ORFs) in Ae. aegypti resulted in partial masculinization of genetic females as evidenced by morphology and doublesex splicing. Phylogenetic analysis suggests Nix is related to femaleless (fle), a recently described intermediate sex-determining factor found exclusively in anopheline mosquitoes. Nix from all species has a conserved structure, including 3 RNA-recognition motifs (RRMs), as does fle. However, Nix has evolved at a much faster rate than fle. The RRM3 of both Nix and fle are distantly related to the single RRM of a widely distributed and conserved splicing factor transformer-2 (tra2). The RRM3-based phylogenetic analysis suggests this domain in Nix and fle may have evolved from tra2 or a tra2-related gene in a common ancestor of mosquitoes. Our results provide insights into the evolution of sex determination in mosquitoes and will inform broad applications of mosquito-control strategies based on manipulating sex ratios toward nonbiting males., (© The Author(s) 2023. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024

3. CD4+ and CD8+ T cells and antibodies are associated with protection against Delta vaccine breakthrough infection: a nested case-control study within the PITCH study.

Author

Neale I, Ali M, Kronsteiner B, Longet S, Abraham P, Deeks AS, Brown A, Moore SC, Stafford L, Dobson SL, Plowright M, Newman TAH, Wu MY, Carr EJ, Beale R, Otter AD, Hopkins S, Hall V, Tomic A, Payne RP, Barnes E, Richter A, Duncan CJA, Turtle L, de Silva TI, Carroll M, Lambe T, Klenerman P, and Dunachie S

Subjects

Humans, Case-Control Studies, Antibodies, CD8-Positive T-Lymphocytes, SARS-CoV-2, CD4-Positive T-Lymphocytes, Antibodies, Viral, Antibodies, Neutralizing, Breakthrough Infections, Vaccines

Abstract

Importance: Defining correlates of protection against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccine breakthrough infection informs vaccine policy for booster doses and future vaccine designs. Existing studies demonstrate humoral correlates of protection, but the role of T cells in protection is still unclear. In this study, we explore antibody and T cell immune responses associated with protection against Delta variant vaccine breakthrough infection in a well-characterized cohort of UK Healthcare Workers (HCWs). We demonstrate evidence to support a role for CD4+ and CD8+ T cells as well as antibodies against Delta vaccine breakthrough infection. In addition, our results suggest a potential role for cross-reactive T cells in vaccine breakthrough., Competing Interests: S.D. is a Scientific Advisor to the Scottish Parliament on COVID-19 for which she receives a fee. Oxford University has entered a joint COVID-19 vaccine development partnership with AstraZeneca. All other authors have declared no competing interests.

Published

2023

4. Omicron infection following vaccination enhances a broad spectrum of immune responses dependent on infection history.

Author

Hornsby H, Nicols AR, Longet S, Liu C, Tomic A, Angyal A, Kronsteiner B, Tyerman JK, Tipton T, Zhang P, Gallis M, Supasa P, Selvaraj M, Abraham P, Neale I, Ali M, Barratt NA, Nell JM, Gustafsson L, Strickland S, Grouneva I, Rostron T, Moore SC, Hering LM, Dobson SL, Bibi S, Mongkolsapaya J, Lambe T, Wootton D, Hall V, Hopkins S, Dong T, Barnes E, Screaton G, Richter A, Turtle L, Rowland-Jones SL, Carroll M, Duncan CJA, Klenerman P, Dunachie SJ, Payne RP, and de Silva TI

Subjects

Humans, Immunity, Antibodies, Viral immunology, Antibodies, Neutralizing, Immunoglobulin A, T-Lymphocytes immunology, Immunity, Mucosal, Male, Female, Adult, COVID-19 immunology, COVID-19 virology, SARS-CoV-2 classification, COVID-19 Vaccines administration & dosage

Abstract

Pronounced immune escape by the SARS-CoV-2 Omicron variant has resulted in many individuals possessing hybrid immunity, generated through a combination of vaccination and infection. Concerns have been raised that omicron breakthrough infections in triple-vaccinated individuals result in poor induction of omicron-specific immunity, and that prior SARS-CoV-2 infection is associated with immune dampening. Taking a broad and comprehensive approach, we characterize mucosal and blood immunity to spike and non-spike antigens following BA.1/BA.2 infections in triple mRNA-vaccinated individuals, with and without prior SARS-CoV-2 infection. We find that most individuals increase BA.1/BA.2/BA.5-specific neutralizing antibodies following infection, but confirm that the magnitude of increase and post-omicron titres are higher in the infection-naive. In contrast, significant increases in nasal responses, including neutralizing activity against BA.5 spike, are seen regardless of infection history. Spike-specific T cells increase only in infection-naive vaccinees; however, post-omicron T cell responses are significantly higher in the previously-infected, who display a maximally induced response with a highly cytotoxic CD8+ phenotype following their 3 rd mRNA vaccine dose. Responses to non-spike antigens increase significantly regardless of prior infection status. These findings suggest that hybrid immunity induced by omicron breakthrough infections is characterized by significant immune enhancement that can help protect against future omicron variants., (© 2023. Springer Nature Limited.)

Published

2023

5. Evolution of long-term vaccine-induced and hybrid immunity in healthcare workers after different COVID-19 vaccine regimens.

Author

Moore SC, Kronsteiner B, Longet S, Adele S, Deeks AS, Liu C, Dejnirattisai W, Reyes LS, Meardon N, Faustini S, Al-Taei S, Tipton T, Hering LM, Angyal A, Brown R, Nicols AR, Dobson SL, Supasa P, Tuekprakhon A, Cross A, Tyerman JK, Hornsby H, Grouneva I, Plowright M, Zhang P, Newman TAH, Nell JM, Abraham P, Ali M, Malone T, Neale I, Phillips E, Wilson JD, Murray SM, Zewdie M, Shields A, Horner EC, Booth LH, Stafford L, Bibi S, Wootton DG, Mentzer AJ, Conlon CP, Jeffery K, Matthews PC, Pollard AJ, Brown A, Rowland-Jones SL, Mongkolsapaya J, Payne RP, Dold C, Lambe T, Thaventhiran JED, Screaton G, Barnes E, Hopkins S, Hall V, Duncan CJA, Richter A, Carroll M, de Silva TI, Klenerman P, Dunachie S, and Turtle L

Subjects

Humans, COVID-19 Vaccines, BNT162 Vaccine, ChAdOx1 nCoV-19, Prospective Studies, SARS-CoV-2, Antibodies, Neutralizing, Health Personnel, Immunity, Humoral, COVID-19, Vaccines

Abstract

Background: Both infection and vaccination, alone or in combination, generate antibody and T cell responses against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). However, the maintenance of such responses-and hence protection from disease-requires careful characterization. In a large prospective study of UK healthcare workers (HCWs) (Protective Immunity from T Cells in Healthcare Workers [PITCH], within the larger SARS-CoV-2 Immunity and Reinfection Evaluation [SIREN] study), we previously observed that prior infection strongly affected subsequent cellular and humoral immunity induced after long and short dosing intervals of BNT162b2 (Pfizer/BioNTech) vaccination., Methods: Here, we report longer follow-up of 684 HCWs in this cohort over 6-9 months following two doses of BNT162b2 or AZD1222 (Oxford/AstraZeneca) vaccination and up to 6 months following a subsequent mRNA booster vaccination., Findings: We make three observations: first, the dynamics of humoral and cellular responses differ; binding and neutralizing antibodies declined, whereas T and memory B cell responses were maintained after the second vaccine dose. Second, vaccine boosting restored immunoglobulin (Ig) G levels; broadened neutralizing activity against variants of concern, including Omicron BA.1, BA.2, and BA.5; and boosted T cell responses above the 6-month level after dose 2. Third, prior infection maintained its impact driving larger and broader T cell responses compared with never-infected people, a feature maintained until 6 months after the third dose., Conclusions: Broadly cross-reactive T cell responses are well maintained over time-especially in those with combined vaccine and infection-induced immunity ("hybrid" immunity)-and may contribute to continued protection against severe disease., Funding: Department for Health and Social Care, Medical Research Council., Competing Interests: Declaration of interests S.J.D. is a Scientific Advisor to the Scottish Parliament on COVID-19, for which she receives a fee. A.J.P. is Chair of UK Department of Health and Social Care’s (DHSC) Joint Committee on Vaccination and Immunisation (JCVI) but does not participate in policy decisions on COVID-19 vaccines. He was previously a member of the WHO’s SAGE. The views expressed in this article do not necessarily represent the views of DHSC, JCVI, or WHO. A.J.P. is chief investigator on clinical trials of Oxford University’s COVID-19 vaccine funded by NIHR. Oxford University has entered a joint COVID-19 vaccine development partnership with AstraZeneca. G.S. sits on the GSK Vaccines Scientific Advisory Board and is a founder member of RQ Biotechnology., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

6. Satellite Rearing of Aedes Mosquito Eggs: Synchronized Empirical Test of a Novel Mass Rearing Model.

Author

Dobson KL, Blore K, Henke JA, Hung KY, Morgan T, Posey T, Sun S, Sypes O, Tremblay NP, and Dobson SL

Subjects

Animals, Male, Humidity, Mosquito Control methods, Aedes

Abstract

Mosquito suppression strategies based on "rear and release" of male mosquitoes are attracting renewed interest from governments, municipalities, and private businesses. These include irradiation-based sterile insect technique, Wolbachia-based technologies, and genetic modification. Each of these approaches requires the mass rearing and release of adult male mosquitoes, which typically is accomplished via a rearing facility near the release site. Although some release programs have relied on centralized rearing and shipment of adult males, adult male mosquitoes are relatively fragile, and their fitness can be diminished by temperature fluctuations, humidity, nutritional deficiencies, and other stresses that occur during shipment. Furthermore, expensive, expedited shipment is typically used to maximize the amount of adult lifetime in the field following the release. In contrast, Aedes aegypti and Ae. albopictus eggs can be desiccated and stored for long periods. They are small, and many millions of eggs can be shipped without specialized environmental conditions and using less expensive means. Here we examine a model in which mosquito eggs are centrally produced and then mailed to satellite rearing facilities. As a control, a replicate set of eggs was reared at the factory of origin. At each of the rearing sites, cloud-based software was used to track and compare rearing at the different locations. The results demonstrate similar rearing outcomes (i.e., egg hatch, immature development, and number of adult males) at each of the different sites for both species. We discuss the outcome in relation to downstream applications and potential future studies., (Copyright © 2023 by The American Mosquito Control Association, Inc.)

Published

2023

7. Reply to: Assessing the efficiency of Verily's automated process for production and release of male Wolbachia-infected mosquitoes.

Author

Crawford JE, Hopkins KC, Buchman A, Zha T, Howell P, Kakani E, Ohm JR, Snoad N, Upson L, Holeman J, Massaro P, Dobson SL, Mulligan FS, and White BJ

Subjects

Animals, Male, Mosquito Control, Aedes, Wolbachia

Published

2022

8. Comparison of two T-cell assays to evaluate T-cell responses to SARS-CoV-2 following vaccination in naïve and convalescent healthcare workers.

Author

Phillips E, Adele S, Malone T, Deeks A, Stafford L, Dobson SL, Amini A, Skelly D, Eyre D, Jeffery K, Conlon CP, Dold C, Otter A, D'Arcangelo S, Turtle L, Klenerman P, Barnes E, and Dunachie SJ

Subjects

Antibodies, Viral, Health Personnel, Humans, Peptides, SARS-CoV-2, Spike Glycoprotein, Coronavirus, Vaccination, BNT162 Vaccine immunology, COVID-19 prevention & control, ChAdOx1 nCoV-19 immunology, T-Lymphocytes immunology

Abstract

T-cell responses to SARS-CoV-2 following infection and vaccination are less characterized than antibody responses, due to a more complex experimental pathway. We measured T-cell responses in 108 healthcare workers (HCWs) using the commercialized Oxford Immunotec T-SPOT Discovery SARS-CoV-2 assay service (OI T-SPOT) and the PITCH ELISpot protocol established for academic research settings. Both assays detected T-cell responses to SARS-CoV-2 spike, membrane, and nucleocapsid proteins. Responses were significantly lower when reported by OI T-SPOT than by PITCH ELISpot. Four weeks after two doses of either Pfizer/BioNTech BNT162b or ChAdOx1 nCoV-19 AZD1222 vaccine, the responder rate was 63% for OI T-SPOT Panels 1 + 2 (peptides representing SARS-CoV-2 spike protein excluding regions present in seasonal coronaviruses), 69% for OI T-SPOT Panel 14 (peptides representing the entire SARS-CoV-2 spike), and 94% for the PITCH ELISpot total spike. The two OI T-SPOT panels correlated strongly with each other showing that either readout quantifies spike-specific T-cell responses, although the correlation between the OI T-SPOT panels and the PITCH ELISpot total spike was moderate. The standardization, relative scalability, and longer interval between blood acquisition and processing are advantages of the commercial OI T-SPOT assay. However, the OI T-SPOT assay measures T-cell responses at a significantly lower magnitude compared to the PITCH ELISpot assay, detecting T-cell responses in a lower proportion of vaccinees. This has implications for the reporting of low-level T-cell responses that may be observed in patient populations and for the assessment of T-cell durability after vaccination., (© The Author(s) 2022. Published by Oxford University Press on behalf of the British Society for Immunology.)

Published

2022

9. T-cell and antibody responses to first BNT162b2 vaccine dose in previously infected and SARS-CoV-2-naive UK health-care workers: a multicentre prospective cohort study.

Author

Angyal A, Longet S, Moore SC, Payne RP, Harding A, Tipton T, Rongkard P, Ali M, Hering LM, Meardon N, Austin J, Brown R, Skelly D, Gillson N, Dobson SL, Cross A, Sandhar G, Kilby JA, Tyerman JK, Nicols AR, Spegarova JS, Mehta H, Hornsby H, Whitham R, Conlon CP, Jeffery K, Goulder P, Frater J, Dold C, Pace M, Ogbe A, Brown H, Ansari MA, Adland E, Brown A, Chand M, Shields A, Matthews PC, Hopkins S, Hall V, James W, Rowland-Jones SL, Klenerman P, Dunachie S, Richter A, Duncan CJA, Barnes E, Carroll M, Turtle L, and de Silva TI

Subjects

Antibodies, Viral, Antibody Formation, BNT162 Vaccine, COVID-19 Vaccines, Humans, Immunoglobulin G, Leukocytes, Mononuclear, Prospective Studies, T-Lymphocytes, United Kingdom epidemiology, Vaccines, Synthetic, mRNA Vaccines, COVID-19 prevention & control, SARS-CoV-2

Abstract

Background: Previous infection with SARS-CoV-2 affects the immune response to the first dose of the SARS-CoV-2 vaccine. We aimed to compare SARS-CoV-2-specific T-cell and antibody responses in health-care workers with and without previous SARS-CoV-2 infection following a single dose of the BNT162b2 (tozinameran; Pfizer-BioNTech) mRNA vaccine., Methods: We sampled health-care workers enrolled in the PITCH study across four hospital sites in the UK (Oxford, Liverpool, Newcastle, and Sheffield). All health-care workers aged 18 years or older consenting to participate in this prospective cohort study were included, with no exclusion criteria applied. Blood samples were collected where possible before vaccination and 28 (±7) days following one or two doses (given 3-4 weeks apart) of the BNT162b2 vaccine. Previous infection was determined by a documented SARS-CoV-2-positive RT-PCR result or the presence of positive anti-SARS-CoV-2 nucleocapsid antibodies. We measured spike-specific IgG antibodies and quantified T-cell responses by interferon-γ enzyme-linked immunospot assay in all participants where samples were available at the time of analysis, comparing SARS-CoV-2-naive individuals to those with previous infection., Findings: Between Dec 9, 2020, and Feb 9, 2021, 119 SARS-CoV-2-naive and 145 previously infected health-care workers received one dose, and 25 SARS-CoV-2-naive health-care workers received two doses, of the BNT162b2 vaccine. In previously infected health-care workers, the median time from previous infection to vaccination was 268 days (IQR 232-285). At 28 days (IQR 27-33) after a single dose, the spike-specific T-cell response measured in fresh peripheral blood mononuclear cells (PBMCs) was higher in previously infected (n=76) than in infection-naive (n=45) health-care workers (median 284 [IQR 150-461] vs 55 [IQR 24-132] spot-forming units [SFUs] per 10 6 PBMCs; p<0·0001). With cryopreserved PBMCs, the T-cell response in previously infected individuals (n=52) after one vaccine dose was equivalent to that of infection-naive individuals (n=19) after receiving two vaccine doses (median 152 [IQR 119-275] vs 162 [104-258] SFUs/10 6 PBMCs; p=1·00). Anti-spike IgG antibody responses following a single dose in 142 previously infected health-care workers (median 270 373 [IQR 203 461-535 188] antibody units [AU] per mL) were higher than in 111 infection-naive health-care workers following one dose (35 001 [17 099-55 341] AU/mL; p<0·0001) and higher than in 25 infection-naive individuals given two doses (180 904 [108 221-242 467] AU/mL; p<0·0001)., Interpretation: A single dose of the BNT162b2 vaccine is likely to provide greater protection against SARS-CoV-2 infection in individuals with previous SARS-CoV-2 infection, than in SARS-CoV-2-naive individuals, including against variants of concern. Future studies should determine the additional benefit of a second dose on the magnitude and durability of immune responses in individuals vaccinated following infection, alongside evaluation of the impact of extending the interval between vaccine doses., Funding: UK Department of Health and Social Care, and UK Coronavirus Immunology Consortium., Competing Interests: CD worked on the Oxford–AstraZeneca COVID-19 vaccine trial (phase 1–3). AO reports personal fees from Take Two Interactive and personal fees from Genome BC, outside the submitted work. PCM reports grants from the Wellcome Trust during the conduct of the study. SLR-J reports grants from the UK Department of Health and Social Care during the conduct of the study and grants from UK Research and Innovation (UKRI), National Institute for Health Research (NIHR), and Global Challenges Research Fund outside the submitted work. SD reports grants from the UK Department of Health and Social Care, UK Coronavirus Immunology Consortium (UKRI), the Huo Family Foundation, and the NIHR during the conduct of the study. CJAD reports grants from the Wellcome Trust during the conduct of the study. LT reports personal fees from Eisai outside the submitted work. All other authors declare no competing interests., (© 2022 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY 4.0 license.)

Published

2022

10. The Effects of Boric Acid Sugar Bait on Wolbachia Trans-Infected Male Aedes albopictus (ZAP Males ® ) in Laboratory Conditions.

Author

Aryaprema VS, Qualls WA, Dobson KL, Dobson SL, and Xue RD

Abstract

The field release of Wolbachia trans-infected male mosquitoes, as well as the use of toxic sugar baits, is a novel and promising candidate technique for integrated mosquito management programs. However, the methods of action of the two techniques may not be complementary, because the Wolbachia method releases mosquitoes into the environment expecting a wild population reduction in subsequent generations while the toxic baits are intended to reduce the wild population by killing mosquitoes. This laboratory study was conducted to evaluate the effectiveness of boric acid toxic sugar baits on Wolbachia trans-infected male Aedes albopictus , relative to wild-type Ae. albopictus males. Wolbachia trans-infected (ZAP male ® ) and the wild-type Ae. albopictus males were exposed separately to 1% boric acid in a 10% sucrose solution in BugDorms. In the control test, the two groups were exposed to 10% sucrose solution without boric acid. Percent mortalities were counted for 24 h, 48 h and 72 h post exposure periods. The results show that 1% boric acid toxic sugar bait can effectively kill ZAP males under laboratory conditions, and the effectiveness was significantly higher after 24 h and 48 h, compared to wild-type male Ae. albopictus . This finding will help in planning and coordinating integrated mosquito management programs, including both Wolbachia trans-infected mosquito releases and the use of toxic sugar baits against Ae. albopictus .

Published

2021

11. Immunogenicity of standard and extended dosing intervals of BNT162b2 mRNA vaccine.

Author

Payne RP, Longet S, Austin JA, Skelly DT, Dejnirattisai W, Adele S, Meardon N, Faustini S, Al-Taei S, Moore SC, Tipton T, Hering LM, Angyal A, Brown R, Nicols AR, Gillson N, Dobson SL, Amini A, Supasa P, Cross A, Bridges-Webb A, Reyes LS, Linder A, Sandhar G, Kilby JA, Tyerman JK, Altmann T, Hornsby H, Whitham R, Phillips E, Malone T, Hargreaves A, Shields A, Saei A, Foulkes S, Stafford L, Johnson S, Wootton DG, Conlon CP, Jeffery K, Matthews PC, Frater J, Deeks AS, Pollard AJ, Brown A, Rowland-Jones SL, Mongkolsapaya J, Barnes E, Hopkins S, Hall V, Dold C, Duncan CJA, Richter A, Carroll M, Screaton G, de Silva TI, Turtle L, Klenerman P, and Dunachie S

Subjects

Adult, Aged, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, BNT162 Vaccine, COVID-19 blood, COVID-19 immunology, COVID-19 virology, Cross-Priming immunology, Dose-Response Relationship, Immunologic, Ethnicity, Female, Humans, Immunity, Immunoglobulin G immunology, Linear Models, Male, Middle Aged, Reference Standards, SARS-CoV-2 immunology, T-Lymphocytes immunology, Treatment Outcome, Young Adult, mRNA Vaccines, COVID-19 Vaccines immunology, Vaccines, Synthetic immunology

Abstract

Extension of the interval between vaccine doses for the BNT162b2 mRNA vaccine was introduced in the United Kingdom to accelerate population coverage with a single dose. At this time, trial data were lacking, and we addressed this in a study of United Kingdom healthcare workers. The first vaccine dose induced protection from infection from the circulating alpha (B.1.1.7) variant over several weeks. In a substudy of 589 individuals, we show that this single dose induces severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) neutralizing antibody (NAb) responses and a sustained B and T cell response to the spike protein. NAb levels were higher after the extended dosing interval (6-14 weeks) compared with the conventional 3- to 4-week regimen, accompanied by enrichment of CD4 + T cells expressing interleukin-2 (IL-2). Prior SARS-CoV-2 infection amplified and accelerated the response. These data on dynamic cellular and humoral responses indicate that extension of the dosing interval is an effective immunogenic protocol., Competing Interests: Declaration of interests A.J.P. is Chair of the United Kingdom Department of Health and Social Care (DHSC) Joint Committee on Vaccination & Immunisation (JCVI) but does not participate in policy decisions on COVID-19 vaccines. He is a member of the WHO’s SAGE. The views expressed in this article do not necessarily represent the views of the DHSC, JCVI, or WHO. A.J.P. is chief investigator on clinical trials of Oxford University’s COVID-19 vaccine funded by NIHR. Oxford University has entered a joint COVID-19 vaccine development partnership with AstraZeneca., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2021

12. Detection of Serum Cross-Reactive Antibodies and Memory Response to SARS-CoV-2 in Prepandemic and Post-COVID-19 Convalescent Samples.

Author

Shrwani K, Sharma R, Krishnan M, Jones T, Mayora-Neto M, Cantoni D, Temperton NJ, Dobson SL, Subramaniam K, McNamara PS, Cunliffe NA, Turtle L, and Zhang Q

Subjects

Adolescent, Adult, Antibodies, Viral immunology, COVID-19 blood, COVID-19 virology, Child, Child, Preschool, Convalescence, Coronavirus 229E, Human immunology, Coronavirus Envelope Proteins immunology, Coronavirus OC43, Human immunology, Cross Reactions, Enzyme-Linked Immunosorbent Assay, Female, HEK293 Cells, Humans, Immunoglobulin G immunology, Immunologic Memory, Male, Middle Aged, Spike Glycoprotein, Coronavirus immunology, Young Adult, Antibodies, Viral blood, COVID-19 immunology, Immunoglobulin G blood, SARS-CoV-2 immunology

Abstract

Background: A notable feature of coronavirus disease 2019 (COVID-19) is that children are less susceptible to severe disease. Children are known to experience more infections with endemic human coronaviruses (HCoVs) compared to adults. Little is known whether HCoV infections lead to cross-reactive anti-severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antibodies., Methods: We investigated the presence of cross-reactive anti-SARS-CoV-2 IgG antibodies to spike 1 (S1), S1-receptor-binding domain (S1-RBD), and nucleocapsid protein (NP) by enzyme-linked immunosorbent assays, and neutralizing activity by a SARS-CoV-2 pseudotyped virus neutralization assay, in prepandemic sera collected from children (n = 50) and adults (n = 45), and compared with serum samples from convalescent COVID-19 patients (n = 16)., Results: A significant proportion of children (up to 40%) had detectable cross-reactive antibodies to SARS-CoV-2 S1, S1-RBD, and NP antigens, and the anti-S1 and anti-S1-RBD antibody levels correlated with anti-HCoV-HKU1 and anti-HCoV-OC43 S1 antibody titers in prepandemic samples (P < .001). There were marked increases of anti-HCoV-HKU1 and - OC43 S1 (but not anti-NL63 and -229E S1-RBD) antibody titers in serum samples from convalescent COVID-19 patients (P < .001), indicating an activation of cross-reactive immunological memory to β-coronavirus spike., Conclusions: We demonstrated cross-reactive anti-SARS-CoV-2 antibodies in prepandemic serum samples from children and young adults. Promoting this cross-reactive immunity and memory response derived from common HCoV may be an effective strategy against SARS-COV-2 and future novel coronaviruses., (© The Author(s) 2021. Published by Oxford University Press for the Infectious Diseases Society of America.)

Published

2021

13. When More is Less: Mosquito Population Suppression Using Sterile, Incompatible and Genetically Modified Male Mosquitoes.

Author

Dobson SL

Subjects

Animals, Male, Culicidae microbiology, Culicidae radiation effects, Mosquito Control methods, Mosquito Vectors microbiology, Mosquito Vectors radiation effects, Wolbachia physiology

Abstract

The current review of the Sterile Insect Technique (SIT) is motivated by new technologies and the recent renaissance of male release field trials, which is driving an evolution in mosquito control and regulation. Practitioners that are releasing male mosquitoes would do well to learn from past successes and failures, including political and public engagement complications. With examples that include nuanced integrations of the different technologies, e.g., combinations of Wolbachia and irradiation, it is critical that scientists understand and communicate accurately about the technologies, including their evolving management by different regulatory agencies in the USA. Some male release approaches are considered 'pesticides' and regulated by federal and state agencies, while other male release approaches are unregulated. It is important to consider how the new technologies fit with the more 'traditional' chemical applications of adulticides and larvicides. The economics of male release programs are substantially different from traditional control costs, which can be a challenge to their adoption by abatement districts. However, there is substantial need to overcome these complications and challenges, because the problem with invasive mosquitoes grows ever worse with factors that include insecticide resistance, globalization and climate change., (© The Author(s) 2021. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

14. Author Correction: Efficient production of male Wolbachia-infected Aedes aegypti mosquitoes enables large-scale suppression of wild populations.

Author

Crawford JE, Clarke DW, Criswell V, Desnoyer M, Cornel D, Deegan B, Gong K, Hopkins KC, Howell P, Hyde JS, Livni J, Behling C, Benza R, Chen W, Dobson KL, Eldershaw C, Greeley D, Han Y, Hughes B, Kakani E, Karbowski J, Kitchell A, Lee E, Lin T, Liu J, Lozano M, MacDonald W, Mains JW, Metlitz M, Mitchell SN, Moore D, Ohm JR, Parkes K, Porshnikoff A, Robuck C, Sheridan M, Sobecki R, Smith P, Stevenson J, Sullivan J, Wasson B, Weakley AM, Wilhelm M, Won J, Yasunaga A, Chan WC, Holeman J, Snoad N, Upson L, Zha T, Dobson SL, Mulligan FS, Massaro P, and White BJ

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

15. Efficient production of male Wolbachia-infected Aedes aegypti mosquitoes enables large-scale suppression of wild populations.

Author

Crawford JE, Clarke DW, Criswell V, Desnoyer M, Cornel D, Deegan B, Gong K, Hopkins KC, Howell P, Hyde JS, Livni J, Behling C, Benza R, Chen W, Dobson KL, Eldershaw C, Greeley D, Han Y, Hughes B, Kakani E, Karbowski J, Kitchell A, Lee E, Lin T, Liu J, Lozano M, MacDonald W, Mains JW, Metlitz M, Mitchell SN, Moore D, Ohm JR, Parkes K, Porshnikoff A, Robuck C, Sheridan M, Sobecki R, Smith P, Stevenson J, Sullivan J, Wasson B, Weakley AM, Wilhelm M, Won J, Yasunaga A, Chan WC, Holeman J, Snoad N, Upson L, Zha T, Dobson SL, Mulligan FS, Massaro P, and White BJ

Subjects

Aedes growth & development, Animal Migration, Animals, California, Female, Larva growth & development, Larva microbiology, Larva physiology, Male, Mosquito Control statistics & numerical data, Mosquito Vectors growth & development, Population Dynamics, Sex Characteristics, Aedes microbiology, Aedes physiology, Mosquito Control methods, Mosquito Vectors microbiology, Mosquito Vectors physiology, Wolbachia physiology

Abstract

The range of the mosquito Aedes aegypti continues to expand, putting more than two billion people at risk of arboviral infection. The sterile insect technique (SIT) has been used to successfully combat agricultural pests at large scale, but not mosquitoes, mainly because of challenges with consistent production and distribution of high-quality male mosquitoes. We describe automated processes to rear and release millions of competitive, sterile male Wolbachia-infected mosquitoes, and use of these males in a large-scale suppression trial in Fresno County, California. In 2018, we released 14.4 million males across three replicate neighborhoods encompassing 293 hectares. At peak mosquito season, the number of female mosquitoes was 95.5% lower (95% CI, 93.6-96.9) in release areas compared to non-release areas, with the most geographically isolated neighborhood reaching a 99% reduction. This work demonstrates the high efficacy of mosquito SIT in an area ninefold larger than in previous similar trials, supporting the potential of this approach in public health and nuisance-mosquito eradication programs.

Published

2020

16. Localized Control of Aedes aegypti (Diptera: Culicidae) in Miami, FL, via Inundative Releases of Wolbachia-Infected Male Mosquitoes.

Author

Mains JW, Kelly PH, Dobson KL, Petrie WD, and Dobson SL

Subjects

Animals, Florida, Male, Population Dynamics, Aedes microbiology, Mosquito Control, Pest Control, Biological, Wolbachia physiology

Abstract

As part of the response to autochthonous Zika transmission in the United States, the City of South Miami implemented a 6-mo period in which Wolbachia-infected WB1 Aedes aegypti (L.) males were released into an ~170-acre area. Intracellular Wolbachia bacteria infections in Ae. aegypti cause early embryonic arrest (known as cytoplasmic incompatibility [CI]) and egg hatch failure, and inundative introductions have been suggested as a potential control tool. Throughout the release period, the Ae. aegypti population was monitored within both the release area and an equivalent area that did not receive WB1 male releases. The results show a significant reduction in egg hatch at the area receiving WB1 males, which is consistent with expectations for CI. Similarly, the number of Ae. aegypti was significantly reduced at the area receiving WB1 males, relative to the untreated area. The observed population reduction and results encourage additional work and replication of the Wolbachia biopesticide approach against Ae. aegypti, as an additional tool to be integrated with existing control tools for the control of this medically important vector and nuisance pest., (© The Author(s) 2019. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

17. Aedes aegypti Males as Vehicles for Insecticide Delivery.

Author

Brelsfoard CL, Mains JW, Mulligan S, Cornel A, Holeman J, Kluh S, Leal A, Hribar LJ, Morales H, Posey T, and Dobson SL

Abstract

Aedes aegypti continues to spread globally and remains a challenge to control, in part due to its 'cryptic behavior' in that it often deposits eggs (oviposits) in larval habitats that are difficult to find and treat using traditional methods. Auto-dissemination strategies target these cryptic breeding sites by employing mosquitoes to deliver lethal doses of insecticide. This report describes the initial field trials of an application known as Autodissemination Augmented by Males (ADAM), utilizing A. aegypti males dusted with pyriproxyfen (PPF). Findings presented here are drawn from both caged and field trial studies. Together, these trials examined for the ability of A. aegypti males to disseminate PPF and to impact field populations. PPF-dusted males were able to effectively deliver lethal doses of PPF to oviposition sites under the conditions tested. Results from field trials in Florida and California demonstrated reduced A. aegypti populations in treated areas, compared to areas where PPF-treated males were not released. These results indicate that the release of PPF-dusted A. aegypti males can impact A. aegypti populations as measured by both reduced larval survival and lower numbers of adult female A. aegypti . We propose the ADAM approach as an addition to existing mosquito control techniques targeting A. aegypti and other mosquitoes that utilize cryptic larval habitats.

Published

2019

18. A highly stable blood meal alternative for rearing Aedes and Anopheles mosquitoes.

Author

Baughman T, Peterson C, Ortega C, Preston SR, Paton C, Williams J, Guy A, Omodei G, Johnson B, Williams H, O'Neill SL, Ritchie SA, Dobson SL, and Madan D

Subjects

Adenosine Triphosphate blood, Aedes drug effects, Aedes microbiology, Animals, Anopheles drug effects, Anopheles microbiology, Blood Substitutes chemistry, Diet, Dietary Supplements, Female, Insect Vectors drug effects, Insect Vectors microbiology, Male, Ovum, Pest Control, Biological, Reproduction drug effects, Adenosine Triphosphate pharmacology, Aedes physiology, Anopheles physiology, Insect Vectors physiology, Plasma chemistry, Wolbachia physiology

Abstract

We investigated alternatives to whole blood for blood feeding of mosquitoes with a focus on improved stability and compatibility with mass rearing programs. In contrast to whole blood, an artificial blood diet of ATP-supplemented plasma was effective in maintaining mosquito populations and was compatible with storage for extended periods refrigerated, frozen, and as a lyophilized powder. The plasma ATP diet supported rearing of both Anopheles and Aedes mosquitoes. It was also effective in rearing Wolbachia-infected Aedes mosquitoes, suggesting compatibility with vector control efforts.

Published

2017

19. Infections of Wolbachia may destabilize mosquito population dynamics.

Author

Telschow A, Grziwotz F, Crain P, Miki T, Mains JW, Sugihara G, Dobson SL, and Hsieh CH

Subjects

Aedes microbiology, Animals, Models, Biological, Nonlinear Dynamics, Population Dynamics, Time Factors, Culicidae microbiology, Gram-Negative Bacterial Infections microbiology, Wolbachia growth & development

Abstract

Recent efforts in controlling mosquito-borne diseases focus on biocontrol strategies that incapacitate pathogens inside mosquitoes by altering the mosquito's microbiome. A case in point is the introduction of Wolbachia into natural mosquito populations in order to eliminate Dengue virus. However, whether this strategy can successfully control vector-borne diseases is debated; particularly, how artificial infection affects population dynamics of hosts remains unclear. Here, we show that natural Wolbachia infections are associated with unstable mosquito population dynamics by contrasting Wolbachia-infected versus uninfected cage populations of the Asian tiger mosquito (Aedes albopictus). By analyzing weekly data of adult mosquito abundances, we found that the variability of the infected populations is significantly higher than that of the uninfected. The elevated population variability is explained by increased instability in dynamics, as quantified by system nonlinearity (i.e., state-dependence). In addition, predictability of infected populations is substantially lower. A mathematical model analysis suggests that Wolbachia may alter mosquito population dynamics by modifying larval competition of hosts. These results encourage examination for effects of artificial Wolbachia establishment on mosquito populations, because an enhancement of population variability with reduced predictability could pose challenges in management. Our findings have implications for application of microbiome alterations in biocontrol programs., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

20. Life-shortening Wolbachia infection reduces population growth of Aedes aegypti.

Author

Suh E, Mercer DR, and Dobson SL

Subjects

Aedes physiology, Animals, Host-Pathogen Interactions, Larva microbiology, Population Growth, Survival Analysis, Aedes microbiology, Wolbachia physiology

Abstract

Wolbachia bacteria are being introduced into natural populations of vector mosquitoes, with the goal of reducing the transmission of human diseases such as Zika and dengue fever. The successful establishment of Wolbachia infection is largely dependent on the effects of Wolbachia infection to host fitness, but the effects of Wolbachia infection on the individual life-history traits of immature mosquitoes can vary. Here, the effects of life-shortening Wolbachia (wMelPop) on population growth of infected individuals were evaluated by measuring larval survival, developmental time and adult size of Aedes aegypti in intra- (infected or uninfected only) and inter-group (mixed with infected and uninfected) larval competition assays. At low larval density conditions, the population growth of wMelPop infected and uninfected individuals was similar. At high larval densities, wMelPop infected individuals had a significantly reduced population growth rate relative to uninfected individuals, regardless of competition type. We discuss the results in relation to the invasion of the wMelPop Wolbachia infection into naturally uninfected populations., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

21. Female Adult Aedes albopictus Suppression by Wolbachia-Infected Male Mosquitoes.

Author

Mains JW, Brelsfoard CL, Rose RI, and Dobson SL

Abstract

Dengue, chikungunya and zika viruses are pathogens with an increasing global impact. In the absence of an approved vaccine or therapy, their management relies on controlling the mosquito vectors. But traditional controls are inadequate, and the range of invasive species such as Aedes albopictus (Asian Tiger Mosquito) is expanding. Genetically modified mosquitoes are being tested, but their use has encountered regulatory barriers and public opposition in some countries. Wolbachia bacteria can cause a form of conditional sterility, which can provide an alternative to genetic modification or irradiation. It is unknown however, whether openly released, artificially infected male Ae. albopictus can competitively mate and sterilize females at a level adequate to suppress a field population. Also, the unintended establishment of Wolbachia at the introduction site could result from horizontal transmission or inadvertent female release. In 2014, an Experimental Use Permit from the United States Environmental Protection Agency approved a pilot field trial in Lexington, Kentucky, USA. Here, we present data showing localized reduction of both egg hatch and adult female numbers. The artificial Wolbachia type was not observed to establish in the field. The results are discussed in relation to the applied use of Wolbachia-infected males as a biopesticide to suppress field populations of Ae. albopictus., Competing Interests: J.W.M., C.L.B. and S.L.D. are paid employees of MosquitoMate, a for-profit company. S.L.D. is a Full Professor at the University of Kentucky. B.R. is a paid consultant for MosquitoMate. This does not alter our adherence to all Scientific Reports policies.

Published

2016

22. Interaction of Wolbachia and Bloodmeal Type in Artificially Infected Aedes albopictus (Diptera: Culicidae).

Author

Suh E, Fu Y, Mercer DR, and Dobson SL

Abstract

Maternally inherited Wolbachia bacteria are being introduced into vector mosquito populations, with the goal of reducing the transmission of diseases such as dengue fever. The infection dynamics of Wolbachia depends upon the ability of Wolbachia to manipulate host reproduction as well as any fitness costs imposed upon the host. Some vector mosquito species are opportunistic blood feeders, utilizing both human and nonhuman vertebrate hosts, and the effects of bloodmeal source on Wolbachia phenotype is not well understood. Here we transfer wMelPop Wolbachia from Drosophila melanogaster (Meigen) into wild-type Aedes albopictus (Skuse) and characterize the resulting triple infection by examining for an effect of human and mouse blood on the Wolbachia infection persistence and phenotypes. When provided with human blood, the triple Wolbachia infection was persistent, with high maternal inheritance and relatively little fecundity cost, and a pattern of imperfect unidirectional cytoplasmic incompatibility was observed in mating experiments between wild-type and triply infected individuals. With mouse blood, reduced female fecundity and low maternal inheritance were observed in wMelPop-infected females, which affected the typical pattern of unidirectional CI. Our findings indicate the interactive effects of Wolbachia infection and blood source drive distinct shifts in the Wolbachia-host symbiotic association., (© The Authors 2016. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2016

23. The impact of insecticide-treated cloth targets on the survival of Stegomyia polynesiensis (= Aedes polynesiensis) under laboratory and semi-field conditions in French Polynesia.

Author

Chambers EW, Bossin HC, Ritchie SA, Russell RC, and Dobson SL

Subjects

Animals, Female, Polynesia, Survival Analysis, Aedes, Insect Control standards, Insecticides, Nitriles, Pyrethrins

Abstract

The impact of deltamethrin-impregnated cloth targets on Stegomyia polynesiensis (= Aedes polynesiensis) (Marks) (Diptera: Culicidae) was assessed under laboratory and semi-field settings in French Polynesia. Stegomyia polynesiensis females were released into small laboratory cages and large field cages containing either a deltamethrin-treated or an untreated navy blue cloth, and mosquito knock-down and mortality were assessed. The 24-h mortality rate in mosquitoes exposed to the insecticide-treated target in small cages was 98.0%. These mosquitoes also demonstrated significantly higher levels of knock-down than those exposed to the untreated target. Mortality in field cages was assessed at 24 and 48 h. The 24-h mortality rate in mosquitoes exposed to the control target was 31.2%, whereas that in those exposed to the deltamethrin-treated target was 54.3%. The 48-h mortality rate was also elevated in mosquitoes exposed to the deltamethrin-treated target, but this result did not differ significantly from that observed in mosquitoes exposed to the control target. The significant suppression of female S. polynesiensis by deltamethrin-treated resting targets in this study indicates that these targets could play a role in the control of an important disease vector in the South Pacific region., (© 2016 The Royal Entomological Society.)

Published

2016

24. Wolbachia mosquito control: Regulated.

Author

Dobson SL, Bordenstein SR, and Rose RI

Subjects

Animals, Culicidae microbiology, Dengue prevention & control, Mosquito Control methods, Wolbachia

Published

2016

25. Male mosquitoes as vehicles for insecticide.

Author

Mains JW, Brelsfoard CL, and Dobson SL

Subjects

Aedes growth & development, Animals, Female, Juvenile Hormones chemistry, Juvenile Hormones pharmacology, Male, Oviposition, Pyridines chemistry, Aedes drug effects, Insecticides pharmacology, Mosquito Control methods, Pyridines pharmacology

Abstract

Background: The auto-dissemination approach has been shown effective at treating cryptic refugia that remain unaffected by existing mosquito control methods. This approach relies on adult mosquito behavior to spread larvicide to breeding sites at levels that are lethal to immature mosquitoes. Prior studies demonstrate that 'dissemination stations,' deployed in mosquito-infested areas, can contaminate adult mosquitoes, which subsequently deliver the larvicide to breeding sites. In some situations, however, preventative measures are needed, e.g., to mitigate seasonal population increases. Here we examine a novel approach that combines elements of autocidal and auto-dissemination strategies by releasing artificially reared, male mosquitoes that are contaminated with an insecticide., Methodology: Laboratory and field experiments examine for model-predicted impacts of pyriproxyfen (PPF) directly applied to adult male Aedes albopictus, including (1) the ability of PPF-treated males to cross-contaminate females and to (2) deliver PPF to breeding sites., Principal Findings: Similar survivorship was observed in comparisons of PPF-treated and untreated males. Males contaminated both female adults and oviposition containers in field cage tests, at levels that eliminated immature survivorship. Field trials demonstrate an ability of PPF-treated males to transmit lethal doses to introduced oviposition containers, both in the presence and absence of indigenous females. A decline in the Ae. albopictus population was observed following the introduction of PPF-treated males, which was not observed in two untreated field sites., Conclusions/significance: The results demonstrate that, in cage and open field trials, adult male Ae. albopictus can tolerate PPF and contaminate, either directly or indirectly, adult females and immature breeding sites. The results support additional development of the proposed approach, in which male mosquitoes act as vehicles for insecticide delivery, including exploration of the approach with additional medically important mosquito species. The novelty and importance of this approach is an ability to safely achieve auto-dissemination at levels of intensity that may not be possible with an auto-dissemination approach that is based on indigenous females. Specifically, artificially-reared males can be released and sustained at any density required, so that the potential for impact is limited only by the practical logistics of mosquito rearing and release, rather than natural population densities and the self-limiting impact of an intervention upon them.

Published

2015

26. Interspecific Transfer of a Wolbachia Infection Into Aedes albopictus (Diptera: Culicidae) Yields a Novel Phenotype Capable of Rescuing a Superinfection.

Author

Andrews ES, Fu Y, Calvitti M, and Dobson SL

Subjects

Animals, Female, Male, Phenotype, Reproductive Isolation, Aedes microbiology, Pest Control, Biological, Wolbachia physiology

Abstract

Wolbachia are maternally transmitted obligate bacteria that occur naturally in many arthropods. The phenotype observed in mosquitoes is known as cytoplasmic incompatibility (CI), which results in reduced or absent egg hatch in crosses between individuals with different infection types. Applied mosquito control strategies propose that by releasing individuals infected with a Wolbachia strain that differs from that in the natural host population, CI could be used to suppress or replace mosquito populations. Here, using tetracycline treatment and embryonic microinjection, Aedes albopictus (Skuse) was cleared of its natural Wolbachia infection and artificially infected with a Wolbachia strain originating from Aedes riversi Bohart & Ingram. Crossing experiments were carried out to determine whether CI could be observed between the artificially infected strain (UC), naturally infected (wild type), and uninfected strains of Ae. albopictus. Crosses between UC males and uninfected females resulted in no egg hatch, a classic unidirectional CI pattern. Crosses between the wild-type and UC strain also exhibited a unidirectional pattern of CI, demonstrating that the UC strain is compatible with both of the Wolbachia types that occur within Ae. albopictus and that wild-type Wolbachia infections are unable to fully rescue the UC Wolbachia type. Crosses between the UC strain and another artificially infected Ae. albopictus strain (ARwP), were bidirectionally incompatible, demonstrating that the UC strain is not compatible with all Wolbachia types. The CI patterns observed in this study were atypical and the opposite of that typically observed with superinfections., (© 2014 Entomological Society of America.)

Published

2014

27. Molecular xenomonitoring using mosquitoes to map lymphatic filariasis after mass drug administration in American Samoa.

Author

Schmaedick MA, Koppel AL, Pilotte N, Torres M, Williams SA, Dobson SL, Lammie PJ, and Won KY

Subjects

Animals, DNA, Helminth analysis, DNA, Helminth genetics, Filaricides therapeutic use, Humans, Molecular Epidemiology, Wuchereria bancrofti classification, Aedes parasitology, Culex parasitology, Elephantiasis, Filarial drug therapy, Elephantiasis, Filarial epidemiology, Elephantiasis, Filarial transmission, Wuchereria bancrofti genetics

Abstract

Background: Mass drug administration (MDA) programs have dramatically reduced lymphatic filariasis (LF) incidence in many areas around the globe, including American Samoa. As infection rates decline and MDA programs end, efficient and sensitive methods for detecting infections are needed to monitor for recrudescence. Molecular methods, collectively termed 'molecular xenomonitoring,' can identify parasite DNA or RNA in human blood-feeding mosquitoes. We tested mosquitoes trapped throughout the inhabited islands of American Samoa to identify areas of possible continuing LF transmission after completion of MDA., Methodology/principle Findings: Mosquitoes were collected using BG Sentinel traps from most of the villages on American Samoa's largest island, Tutuila, and all major villages on the smaller islands of Aunu'u, Ofu, Olosega, and Ta'u. Real-time PCR was used to detect Wuchereria bancrofti DNA in pools of ≤ 20 mosquitoes, and PoolScreen software was used to infer territory-wide prevalences of W. bancrofti DNA in the mosquitoes. Wuchereria bancrofti DNA was found in mosquitoes from 16 out of the 27 village areas sampled on Tutuila and Aunu'u islands but none of the five villages on the Manu'a islands of Ofu, Olosega, and Ta'u. The overall 95% confidence interval estimate for W. bancrofti DNA prevalence in the LF vector Ae. polynesiensis was 0.20-0.39%, and parasite DNA was also detected in pools of Culex quinquefasciatus, Aedes aegypti, and Aedes (Finlaya) spp., Conclusions/significance: Our results suggest low but widespread prevalence of LF on Tutuila and Aunu'u where 98% of the population resides, but not Ofu, Olosega, and Ta'u islands. Molecular xenomonitoring can help identify areas of possible LF transmission, but its use in the LF elimination program in American Samoa is limited by the need for more efficient mosquito collection methods and a better understanding of the relationship between prevalence of W. bancrofti DNA in mosquitoes and infection and transmission rates in humans.

Published

2014

28. Wolbachia endosymbionts and human disease control.

Author

Slatko BE, Luck AN, Dobson SL, and Foster JM

Subjects

Animals, Filariasis drug therapy, Filarioidea drug effects, Filarioidea physiology, Humans, Nematoda drug effects, Nematoda physiology, Nematode Infections drug therapy, Filariasis parasitology, Filarioidea microbiology, Nematoda microbiology, Nematode Infections parasitology, Symbiosis, Wolbachia physiology

Abstract

Most human filarial nematode parasites and arthropods are hosts for a bacterial endosymbiont, Wolbachia. In filaria, Wolbachia are required for normal development, fertility and survival, whereas in arthropods, they are largely parasitic and can influence development and reproduction, but are generally not required for host survival. Due to their obligate nature in filarial parasites, Wolbachia have been a target for drug discovery initiatives using several approaches including diversity and focused library screening and genomic sequence analysis. In vitro and in vivo anti-Wolbachia antibiotic treatments have been shown to have adulticidal activity, a long sought goal of filarial parasite drug discovery. In mosquitoes, it has been shown that the presence of Wolbachia can inhibit the transmission of certain viruses, such as Dengue, Chikungunya, Yellow Fever, West Nile, as well as the infectivity of the malaria-causing protozoan, Plasmodium and filarial nematodes. Furthermore, Wolbachia can cause a form of conditional sterility that can be used to suppress populations of mosquitoes and additional medically important insects. Thus Wolbachia, a pandemic endosymbiont offers great potential for elimination of a wide-variety of devastating human diseases., (Copyright © 2014 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2014

29. Harnessing mosquito-Wolbachia symbiosis for vector and disease control.

Author

Bourtzis K, Dobson SL, Xi Z, Rasgon JL, Calvitti M, Moreira LA, Bossin HC, Moretti R, Baton LA, Hughes GL, Mavingui P, and Gilles JR

Subjects

Animals, Wolbachia growth & development, Aedes growth & development, Aedes microbiology, Insect Vectors, Mosquito Control methods, Pest Control, Biological methods, Symbiosis, Wolbachia physiology

Abstract

Mosquito species, members of the genera Aedes, Anopheles and Culex, are the major vectors of human pathogens including protozoa (Plasmodium sp.), filariae and of a variety of viruses (causing dengue, chikungunya, yellow fever, West Nile). There is lack of efficient methods and tools to treat many of the diseases caused by these major human pathogens, since no efficient vaccines or drugs are available; even in malaria where insecticide use and drug therapies have reduced incidence, 219 million cases still occurred in 2010. Therefore efforts are currently focused on the control of vector populations. Insecticides alone are insufficient to control mosquito populations since reduced susceptibility and even resistance is being observed more and more frequently. There is also increased concern about the toxic effects of insecticides on non-target (even beneficial) insect populations, on humans and the environment. During recent years, the role of symbionts in the biology, ecology and evolution of insect species has been well-documented and has led to suggestions that they could potentially be used as tools to control pests and therefore diseases. Wolbachia is perhaps the most renowned insect symbiont, mainly due to its ability to manipulate insect reproduction and to interfere with major human pathogens thus providing new avenues for pest control. We herein present recent achievements in the field of mosquito-Wolbachia symbiosis with an emphasis on Aedes albopictus. We also discuss how Wolbachia symbiosis can be harnessed for vector control as well as the potential to combine the sterile insect technique and Wolbachia-based approaches for the enhancement of population suppression programs., (Copyright © 2013 International Atomic Energy Agency 2013. Published by Elsevier B.V. All rights reserved.)

Published

2014

30. Methoprene effects on survival and reproductive performance of adult female and male Aedes aegypti.

Author

Brabant PJ 3rd and Dobson SL

Subjects

Animals, Female, Male, Reproduction drug effects, Aedes drug effects, Methoprene toxicity, Mosquito Control, Oviparity drug effects

Abstract

Methoprene is a juvenile hormone analog commonly used for the control of mosquito larvae. It acts through interference with normal metamorphosis, resulting in mortality prior to and during adult emergence. Methoprene is not commonly used for the control of adult mosquitoes, due to an absence of acute effects. Here, we have evaluated for chronic effects caused by the exposure of adult Aedes aegypti mosquitoes to methoprene. We applied methoprene to adults, both through 1) topical application to the abdomen and 2) as an aerosol, examining for treatment effects on ovary development, adult longevity, and fecundity. The results demonstrate that relatively high doses are required to affect adult survivorship. In contrast, significant impacts on both fecundity and egg hatch were observed in females treated at the lower dosages. We discuss the results in relation to autocidal strategies for mosquito control in which the release of fecund females is to be avoided.

Published

2013

31. Reduced competitiveness of Wolbachia infected Aedes aegypti larvae in intra- and inter-specific immature interactions.

Author

Suh E and Dobson SL

Subjects

Animals, Larva microbiology, Aedes microbiology, Aedes physiology, Host-Pathogen Interactions physiology, Wolbachia physiology

Abstract

Wolbachia are maternally inherited intracellular bacteria that frequently infect a diverse range of arthropod species. Empirical and theoretical studies examining Wolbachia invasiveness have emphasized Wolbachia effects on adult hosts, but recent studies show that Wolbachia impacts on immature hosts can be important also. Here, we have examined for effects of Wolbachia infection in Aedes aegypti. Specifically, differential survivorship is observed when young larvae (1st instar) are exposed to older Aedes albopictus larvae (4th instar) or con-specific larvae. In an additional experiment, we have examined for differential behavior and observed that Wolbachia-infected larvae differ from uninfected larvae in their reaction to light stimulation. Our results support a hypothesized effect of Wolbachia on A. aegypti larval behavior. The results are discussed in relation to the ability of Wolbachia to invade natural populations and recently applied public health strategies that target the replacement or suppression of this important disease vector., (Published by Elsevier Inc.)

Published

2013

32. Landing response of Aedes (Stegomyia) polynesiensis mosquitoes to coloured targets.

Author

Chambers EW, Bossin HC, Ritchie SA, Russell RC, and Dobson SL

Subjects

Animals, Color, Female, Male, Photic Stimulation, Photography, Sex Characteristics, Visual Perception, Aedes physiology, Flight, Animal, Insect Vectors physiology, Mosquito Control methods

Abstract

Aedes polynesiensis Marks (Diptera: Culicidae) is the primary vector of lymphatic filariasis (LF) in the island countries and territories of the South Pacific. In the development of a novel control tool, the response of Ae. polynesiensis to six different colours (three solid fabrics, two patterned fabrics and a plastic tarp) was measured using a digital photographic system. Adult mosquitoes were placed into an environmental chamber and allowed to choose between a white target and one of six experimental targets. Mosquito landing frequency and landing duration were calculated. Adult female Ae. polynesiensis preferred all of the experimental targets to the white control target. Mosquito landing frequency was highest for the solid targets (black, navy blue and red) followed in turn by the two colour pattern targets and the polyethylene target. Mosquito landing duration was greater for experimental targets when compared with white control targets. Mosquito landing frequencies did not change over time during the course of the assay. The response of male Ae. polynesiensis was also measured when exposed to a 100% cotton black target. Male mosquitoes preferred the black target to the white control target, although at levels lower than that observed in female mosquitoes. The results suggest that future investigations evaluating the visual responses of Ae. polynesiensis mosquitoes are warranted, with a special emphasis on semi-field and field-based experiments., (© 2013 The Royal Entomological Society.)

Published

2013

33. Wolbachia re-replacement without incompatibility: potential for intended and unintended consequences.

Author

Crain PR, Crowley PH, and Dobson SL

Subjects

Aedes genetics, Animal Distribution, Animals, Australia, Female, Male, Models, Biological, Population Dynamics, Aedes microbiology, Aedes physiology, Genetic Fitness, Mosquito Control methods, Wolbachia physiology

Abstract

Recent releases of mosquitoes infected with different Wolbachia types into Australia have led to conditions that have not been observed naturally and that have not been considered theoretically. In an ongoing public health campaign, two Wolbachia infection types have been introduced, and the infections differ in their fitness cost imposed on the host mosquito. The dynamics of each infection type as it interacts with the indigenous uninfected host population have been previously examined via models and empirical tests. Here we conduct a modeling analysis to predict the dynamics when the two infection types do not remain geographically isolated. The results demonstrate the potential replacement and loss of the more costly infection type, which may not be the desired public health outcome.

Published

2013

34. Determinants of male Aedes aegypti and Aedes polynesiensis (Diptera: Culicidae) response to sound: efficacy and considerations for use of sound traps in the field.

Author

Stone CM, Tuten HC, and Dobson SL

Subjects

Acoustic Stimulation, Animals, Auditory Perception, Female, Male, Aedes physiology, Mosquito Control methods, Sexual Behavior, Animal

Abstract

Understanding the mating competitiveness of male mosquitoes in field settings is essential to programs relying on the mass release of modified male mosquitoes, yet studies on male ecology have been hampered by the lack of a convenient trapping method. An existing promising method makes use of the innate attraction of males to female flight tones. Here, we present laboratory, greenhouse, and field experiments on the efficacy of sound traps for the collection of Aedes aegypti (L.) and Aedes polynesiensis Marks, and laboratory experiments with Ae. aegypti on the effects of male age, size, and mating status on responsiveness to a range of frequencies. Age and mating status influenced the overall responsiveness to sound, whereas male size did not. There were no interactions between these factors and sound frequency. A Centers for Disease Control and Prevention miniature light trap modified to produce a tone of 465 Hz collected 76.2% of Ae. aegypti males in laboratory cages, and 49.7% of males in a greenhouse enclosure. In two sets of experiments in laboratory cages, 50.8 and 46.5% of male Ae. polynesiensis were captured with a trap producing a tone of 440 Hz. In the field, CDC miniature light traps or BG-Sentinel traps fitted with a portable speaker producing tones of 440 or 465 Hz captured significantly more male Ae. polynesiensis when placed near a male swarm than did traps that did not produce sound. When the trap was placed at a distance of 16.5 m from the nearest swarm, there was no significant difference in the number of males caught between control and sound-producing traps. The numbers of Ae. aegypti males captured were low under all circumstances in the field.

Published

2013

35. Swarming behavior of Aedes polynesiensis (Diptera: Culicidae) and characterization of swarm markers in American Samoa.

Author

Tuten HC, Stone CM, and Dobson SL

Subjects

Aedes anatomy & histology, Air Pressure, American Samoa, Animals, Energy Metabolism, Female, Filariasis transmission, Humans, Male, Mosquito Control, Population Dynamics, Trees, Wuchereria bancrofti physiology, Aedes physiology, Insect Vectors physiology

Abstract

We characterize the swarming behavior of male Aedes polynesiensis (Marks) in American Samoa. Instead of swarming around a blood host, males used the base of certain trees as a marker. Repeated sampling proved nondestructive and allowed us to investigate the impact of static (e.g., tree species) and dynamic (e.g., barometric pressure) characters on the likelihood of swarm presence and intensity. Tree circumference and oviposition activity (number of Ae. polynesiensis reared from oviposition cups) were significant positive predictors of the number of males in a swarm. Tree circumference and diameter were significantly positively associated, and canopy height was significantly negatively associated, with swarm occurrence. Comparisons between males swarming early and late during the swarming period allowed for insight into swarm composition in terms of male size and the amount of putative fluid (e.g., nectar) in the crop, indicators of energetic reserves. Males collected during the late period had significantly larger wings and less crop contents than did males of the early cohort. Because the ecology of male Ae. polynesiensis remains understudied, we consider how the current results could facilitate further studies related to applied autocidal strategies as well as the evolution of host-based mating behavior.

Published

2013

36. Infection, growth and maintenance of Wolbachia pipientis in clonal and non-clonal Aedes albopictus cell cultures.

Author

Khoo CC, Venard CM, Fu Y, Mercer DR, and Dobson SL

Subjects

Animals, Bacterial Proteins genetics, Cell Culture Techniques methods, Cell Line, DNA Primers genetics, In Situ Hybridization, Fluorescence, Indoles, Polymerase Chain Reaction, Aedes cytology, Aedes microbiology, Drosophila microbiology, Wolbachia genetics, Wolbachia growth & development

Abstract

Insect cell lines provide useful in vitro models for studying biological systems, including interactions between mosquitoes and obligate intracellular endosymbionts such as Wolbachia pipientis. The Aedes albopictus Aa23 cell line was the first cell line developed to allow examination of Wolbachia infections. However, Wolbachia studies using Aa23 can be complicated by the presence of different cell types in the cell line and the substantial temporal variation in infection level. Two approaches were examined to ameliorate infection variability. In the first approach, multiple Aa23 passaging regimes were tested for an effect on infection variability. Fluorescence in situ hybridization (FISH) staining was used to characterize Wolbachia infection level over time. The results demonstrate an impact of passaging method on Wolbachia infection level, with some methods resulting in loss of infection. None of the passaging methods succeeded in effectively mitigating infection level variation. In a second approach, the clonal C7-10 A. albopictus cell line was infected with Wolbachia from Aa23 cells and Drosophila simulans (Riverside), resulting in cell lines designated C7-10B and C7-10R, respectively. Characterization via FISH staining showed greater stability and uniformity of Wolbachia infection in C7-10R relative to the infection in C7-10B. Characterization of the Aa23, C7-10B and C7-10R lines is discussed as a tool for the study of Wolbachia-host cell interactions.

Published

2013

37. Population impacts of Wolbachia on Aedes albopictus.

Author

Mains JW, Brelsfoard CL, Crain PR, Huang Y, and Dobson SL

Subjects

Animals, Female, Host-Pathogen Interactions, Male, Models, Biological, Population Density, Aedes microbiology, Wolbachia physiology

Abstract

Prior studies have demonstrated that Wolbachia, a commonly occurring bacterium capable of manipulating host reproduction, can affect life history traits in insect hosts, which in turn can have population-level effects. Effects on hosts at the individual level are predicted to impact population dynamics, but the latter has not been examined empirically. Here, we describe a biological model system based on Aedes albopictus (Asian tiger mosquito) that allows for measurement of population dynamics, which has not been accomplished in prior field trials or laboratory designs. The results demonstrate the studied populations to be robust and allow for persistent, closed populations with overlapping generations, which are regulated solely through density-dependent, intraspecific competition for limited resources. Using a novel experimental design, we compare populations that are either uninfected or infected with Wolbachia. The results show differences that include population size, eclosion rates, adult survivorship, and fecundity. The aposymbiotic populations were generally larger and adults longer lived relative to the infected populations. The outcome is discussed in context with naturally occurring Wolbachia invasions, proposed autocidal strategies, and the utility of the developed system as a biological platform for hypothesis testing and improved parameterization.

Published

2013

38. Wolbachia strain wPip yields a pattern of cytoplasmic incompatibility enhancing a Wolbachia-based suppression strategy against the disease vector Aedes albopictus.

Author

Calvitti M, Moretti R, Skidmore AR, and Dobson SL

Subjects

Aedes physiology, Age Factors, Animals, Crosses, Genetic, Cytoplasm, Female, Fertility, Host-Pathogen Interactions, Humans, Insect Vectors physiology, Male, Ovum, Pest Control, Biological methods, Reproduction, Sex Factors, Wolbachia genetics, Wolbachia isolation & purification, Aedes microbiology, Insect Vectors microbiology, Wolbachia physiology

Abstract

Background: Cytoplasmic incompatibility (CI) is induced in nature by Wolbachia bacteria, resulting in conditional male sterility. Previous research demonstrated that the two Wolbachia strains (wAlbA and wAlbB) that naturally co-infect the disease vector mosquito Aedes albopictus (Asian tiger mosquito) can be replaced with the wPip Wolbachia strain from Culex pipiens. Since Wolbachia-based vector control strategies depend upon the strength and consistency of CI, a greater understanding is needed on the CI relationships between wPip, wAlbA and wAlbB Wolbachia in Ae. albopictus., Methods: This work consisted of a collaborative series of crosses carried out in Italy and in US to study the CI relationships between the "wPip" infected Ae. albopictus strain (ARwP) and the superinfected SR strain. The Ae. albopictus strains used in Italian tests are the wPip infected ARwP strain (ARwPIT), the superinfected SR strain and the aposymbiotic AR strain. To understand the observed pattern of CI, crossing experiments carried out in USA focused on the study of the CI relationships between ARwP (ARwPUS) and artificially-generated single infected lines, in specific HTA and HTB, harbouring only wAlbA and wAlbB Wolbachia respectively., Results: The paper reports an unusual pattern of CI observed in crossing experiments between ARwP and SR lines. Specifically, ARwP males are able to induce full sterility in wild type females throughout most of their lifetime, while crosses between SR males and ARwP females become partially fertile with male aging. We demonstrated that the observed decrease in CI penetrance with SR male age, is related to the previously described decrease in Wolbachia density, in particular of the wAlbA strain, occurring in aged superinfected males., Conclusions: The results here reported support the use of the ARwP Ae. albopictus line as source of "ready-made sterile males", as an alternative to gamma radiation sterilized males, for autocidal suppression strategies against the Asian tiger mosquito. In addition, the age dependent CI weakening observed in the crosses between SR males and ARwP females simplifies the downstream efforts to preserve the genetic variability within the laboratory ARwP colonies, to date based on the antibiotic treatment of wild captured superinfected mosquitoes, also reducing the costs.

Published

2012

39. Estimation of population size and dispersal of Aedes polynesiensis on Toamaro motu, French Polynesia.

Author

Mercer DR, Marie J, Bossin H, Faaruia M, Tetuanui A, Sang MC, and Dobson SL

Subjects

Animals, Female, Humans, Male, Polynesia, Population Density, Seasons, Weather, Aedes

Abstract

Mark-release-recapture methods were used to compare Aedes polynesiensis Marks adult numbers and dispersal between dry and wet seasons in a closed population on a small island (motu) in French Polynesia. Females were more than three times more common during wet (December 2008) than dry (May 2007) season samplings although high numbers of vectors were collected during both seasons. Lincoln-Petersen estimates for Ae. polynesiensis females on the motu were 6,055 per hectare for the dry season and 18,860 per hectare for the wet season. Marked females dispersed rapidly to all parts of the motu and survived until recaptures on days 1-5 after release. Males were not adequately sampled using human sentinels or Biogent Sentinel traps.

Published

2012

40. Population genetic structure of Aedes polynesiensis in the Society Islands of French Polynesia: implications for control using a Wolbachia-based autocidal strategy.

Author

Brelsfoard CL and Dobson SL

Subjects

Aedes classification, Aedes genetics, Animals, Gene Flow, Genotype, Microsatellite Repeats, Polynesia, Aedes growth & development, Aedes microbiology, Biota, Mosquito Control methods, Wolbachia isolation & purification

Abstract

Background: Aedes polynesiensis is the primary vector of Wuchereria bancrofti in the South Pacific and an important vector of dengue virus. An improved understanding of the mosquito population genetics is needed for insight into the population dynamics and dispersal, which can aid in understanding the epidemiology of disease transmission and control of the vector. In light of the potential release of a Wolbachia infected strain for vector control, our objectives were to investigate the microgeographical and temporal population genetic structure of A. polynesiensis within the Society Islands of French Polynesia, and to compare the genetic background of a laboratory strain intended for release into its population of origin., Methods: A panel of eight microsatellite loci were used to genotype A. polynesiensis samples collected in French Polynesia from 2005-2008 and introgressed A. polynesiensis and Aedes riversi laboratory strains. Examination of genetic differentiation was performed using F-statistics, STRUCTURE, and an AMOVA. BAYESASS was used to estimate direction and rates of mosquito movement., Results: FST values, AMOVA, and STRUCTURE analyses suggest low levels of intra-island differentiation from multiple collection sites on Tahiti, Raiatea, and Maupiti. Significant pair-wise FST values translate to relatively minor levels of inter-island genetic differentiation between more isolated islands and little differentiation between islands with greater commercial traffic (i.e., Tahiti, Raiatea, and Moorea). STRUCTURE analyses also indicate two population groups across the Society Islands, and the genetic makeup of Wolbachia infected strains intended for release is similar to that of wild-type populations from its island of origin, and unlike that of A. riversi., Conclusions: The observed panmictic population on Tahiti, Raiatea, and Moorea is consistent with hypothesized gene flow occurring between islands that have relatively high levels of air and maritime traffic, compared to that of the more isolated Maupiti and Tahaa. Gene flow and potential mosquito movement is discussed in relation to trials of applied autocidal strategies.

Published

2012

41. Reactive oxygen species production and Brugia pahangi survivorship in Aedes polynesiensis with artificial Wolbachia infection types.

Author

Andrews ES, Crain PR, Fu Y, Howe DK, and Dobson SL

Subjects

Animals, Elephantiasis, Filarial metabolism, Elephantiasis, Filarial parasitology, Elephantiasis, Filarial prevention & control, Female, Oxidative Stress, Aedes microbiology, Aedes parasitology, Brugia pahangi metabolism, Reactive Oxygen Species metabolism, Wolbachia metabolism

Abstract

Heterologous transinfection with the endosymbiotic bacterium Wolbachia has been shown previously to induce pathogen interference phenotypes in mosquito hosts. Here we examine an artificially infected strain of Aedes polynesiensis, the primary vector of Wuchereria bancrofti, which is the causative agent of Lymphatic filariasis (LF) throughout much of the South Pacific. Embryonic microinjection was used to transfer the wAlbB infection from Aedes albopictus into an aposymbiotic strain of Ae. polynesiensis. The resulting strain (designated "MTB") experiences a stable artificial infection with high maternal inheritance. Reciprocal crosses of MTB with naturally infected wild-type Ae. polynesiensis demonstrate strong bidirectional incompatibility. Levels of reactive oxygen species (ROS) in the MTB strain differ significantly relative to that of the wild-type, indicating an impaired ability to regulate oxidative stress. Following a challenge with Brugia pahangi, the number of filarial worms achieving the infective stage is significantly reduced in MTB as compared to the naturally infected and aposymbiotic strains. Survivorship of MTB differed significantly from that of the wild-type, with an interactive effect between survivorship and blood feeding. The results demonstrate a direct correlation between decreased ROS levels and decreased survival of adult female Aedes polynesiensis. The results are discussed in relation to the interaction of Wolbachia with ROS production and antioxidant expression, iron homeostasis and the insect immune system. We discuss the potential applied use of the MTB strain for impacting Ae. polynesiensis populations and strategies for reducing LF incidence in the South Pacific.

Published

2012

42. Open release of male mosquitoes infected with a wolbachia biopesticide: field performance and infection containment.

Author

O'Connor L, Plichart C, Sang AC, Brelsfoard CL, Bossin HC, and Dobson SL

Subjects

Animals, Female, Male, Mice, Aedes microbiology, Mosquito Control methods, Pest Control, Biological methods, Wolbachia pathogenicity

Abstract

Background: Lymphatic filariasis (LF) is a globally significant disease, with 1.3 billion persons in 83 countries at risk. A coordinated effort of administering annual macrofilaricidal prophylactics to the entire at-risk population has succeeded in impacting and eliminating LF transmission in multiple regions. However, some areas in the South Pacific are predicted to persist as transmission sites, due in part to the biology of the mosquito vector, which has led to a call for additional tools to augment drug treatments. Autocidal strategies against mosquitoes are resurging in the effort against invasive mosquitoes and vector borne disease, with examples that include field trials of genetically modified mosquitoes and Wolbachia population replacement. However, critical questions must be addressed in anticipation of full field trials, including assessments of field competitiveness of transfected males and the risk of unintended population replacement., Methodology/principal Findings: We report the outcome of field experiments testing a strategy that employs Wolbachia as a biopesticide. The strategy is based upon Wolbachia-induced conditional sterility, known as cytoplasmic incompatibility, and the repeated release of incompatible males to suppress a population. A criticism of the Wolbachia biopesticide approach is that unintended female release or horizontal Wolbachia transmission can result in population replacement instead of suppression. We present the outcome of laboratory and field experiments assessing the competitiveness of transfected males and their ability to transmit Wolbachia via horizontal transmission., Conclusions/significance: The results demonstrate that Wolbachia-transfected Aedes polynesiensis males are competitive under field conditions during a thirty-week open release period, as indicated by mark, release, recapture and brood-hatch failure among females at the release site. Experiments demonstrate the males to be 'dead end hosts' for Wolbachia and that methods were adequate to prevent population replacement at the field site. The findings encourage the continued development and extension of a Wolbachia autocidal approach to additional medically important mosquito species.

Published

2012

43. Monitoring temporal abundance and spatial distribution of Aedes polynesiensis using BG-Sentinel traps in neighboring habitats on Raiatea, Society Archipelago, French Polynesia.

Author

Mercer DR, Bossin H, Sang MC, O'Connor L, and Dobson SL

Subjects

Animals, Culex physiology, Female, Humans, Larva physiology, Male, Polynesia, Population Dynamics, Pupa physiology, Seasons, Time Factors, Aedes physiology, Ecosystem, Mosquito Control instrumentation

Abstract

Adult numbers and sizes of mosquitoes were monitored for 2 yr in neighboring habitats on the western coast of Raiatea (Society Archipelago) in anticipation of testing new vector control technologies. Aedes polynesiensis Marks females comprised the overwhelming majority (approximately 99%) of the three species of mosquitoes captured in Biogent Sentinel traps placed at fixed sites on three small satellite islands (motus) of the western lagoon and on the shoreline of Raiatea. Aedes polynesiensis males, Aedes aegypti (L.), and Culex quinquefasciatus Say rarely were collected. Numbers of Ae. polynesiensis females per collection differed among trapping dates and locations, with the majority of females captured on two motus, Horea and Toamaro. Shoreline and Horea females had significantly longer mean wing lengths than females from Tiano and Toamaro. Thus, wing lengths were influenced more by local developmental conditions than overall numbers of adults. Significantly more females were captured during the wet season than the dry season. Nonetheless, at least on the two highly productive motus, dry-season females had larger wing lengths than their wet season counterparts. Local weather patterns predicted about half the variation in mosquito numbers. Differences in vector abundance observed when comparing neighboring motus are likely because of differences in human activity and mosquito suppression.

Published

2012

44. Wolbachia infections that reduce immature insect survival: predicted impacts on population replacement.

Author

Crain PR, Mains JW, Suh E, Huang Y, Crowley PH, and Dobson SL

Subjects

Animals, Computer Simulation, Female, Larva microbiology, Male, Population Dynamics, Host-Pathogen Interactions, Insecta microbiology, Models, Biological, Symbiosis, Wolbachia

Abstract

Background: The evolutionary success of Wolbachia bacteria, infections of which are widespread in invertebrates, is largely attributed to an ability to manipulate host reproduction without imposing substantial fitness costs. Here, we describe a stage-structured model with deterministic immature lifestages and a stochastic adult female lifestage. Simulations were conducted to better understand Wolbachia invasions into uninfected host populations. The model includes conventional Wolbachia parameters (the level of cytoplasmic incompatibility, maternal inheritance, the relative fecundity of infected females, and the initial Wolbachia infection frequency) and a new parameter termed relative larval viability (RLV), which is the survival of infected larvae relative to uninfected larvae., Results: The results predict the RLV parameter to be the most important determinant for Wolbachia invasion and establishment. Specifically, the fitness of infected immature hosts must be close to equal to that of uninfected hosts before population replacement can occur. Furthermore, minute decreases in RLV inhibit the invasion of Wolbachia despite high levels of cytoplasmic incompatibility, maternal inheritance, and low adult fitness costs., Conclusions: The model described here takes a novel approach to understanding the spread of Wolbachia through a population with explicit dynamics. By combining a stochastic female adult lifestage and deterministic immature/adult male lifestages, the model predicts that even those Wolbachia infections that cause minor decreases in immature survival are unlikely to invade and spread within the host population. The results are discussed in relation to recent theoretical and empirical studies of natural population replacement events and proposed applied research, which would use Wolbachia as a tool to manipulate insect populations.

Published

2011

45. Wolbachia effects on host fitness and the influence of male aging on cytoplasmic incompatibility in Aedes polynesiensis (Diptera: Culicidae).

Author

Brelsfoard CL and Dobson SL

Subjects

Aedes growth & development, Aging, Animals, Cytoplasm microbiology, Female, Fertility, Genetic Fitness, Host-Pathogen Interactions, Larva growth & development, Larva microbiology, Larva physiology, Longevity, Male, Polymerase Chain Reaction, Population Dynamics, Sex Ratio, Symbiosis, Aedes microbiology, Aedes physiology, Pest Control, Biological, Wolbachia physiology

Abstract

The endosymbiotic bacteria Wolbachia manipulate host reproduction by inducing a form of sterility known as cytoplasmic incompatibility (CI), promoting the invasion of infection into natural host populations. CI has received attention for use in applied strategies to control insect vectors of disease. Thus, to understand both naturally occurring Wolbachia invasions and evaluate potential applied strategies, it is important to understand Wolbachia interactions with its host, including impacts on fitness and the CI level. In this study, we examined for an effect of Wolbachia on survivorship, developmental time, sex ratio, longevity, fecundity, and egg hatch of Aedes polynesiensis Marks, which is the primary vector of Wuchereria bancrofti in the South Pacific. In this study, we have compared strains of A. polynesiensis that are naturally and artificially infected with Wolbachia and additional strains that are aposymbiotic (Wolbachia removed to generate an uninfected strain). Artificially infected strains were observed to have increased larval mortality and decreased adult longevity when compared with aposymbiotic strains. Naturally infected strains were observed to have decreased larval mortality, pupal mortality, increased adult longevity, and a larger adult size when compared with aposymbiotic strains. Artificially infected males that were 4 wk old were able to induce high rates of CI, similar to young males. We discuss the results in relation to the natural spread of Wolbachia and Wolbachia-based applied strategies to modify A. polynesiensis populations.

Published

2011

46. Male mating competitiveness of a Wolbachia-introgressed Aedes polynesiensis strain under semi-field conditions.

Author

Chambers EW, Hapairai L, Peel BA, Bossin H, and Dobson SL

Subjects

Animals, Eggs, Elephantiasis, Filarial transmission, Female, Insect Vectors microbiology, Insect Vectors physiology, Male, Aedes microbiology, Aedes physiology, Competitive Behavior physiology, Elephantiasis, Filarial prevention & control, Mosquito Control methods, Sexual Behavior, Animal physiology, Wolbachia physiology

Abstract

Background: Lymphatic filariasis (LF), a global public health problem affecting approximately 120 million people worldwide, is a leading cause of disability in the developing world including the South Pacific. Despite decades of ongoing mass drug administration (MDA) in the region, some island nations have not yet achieved the threshold levels of microfilaremia established by the World Health Organization for eliminating transmission. Previously, the generation of a novel Aedes polynesiensis strain (CP) infected with an exogenous type of Wolbachia has been described. The CP mosquito is cytoplasmically incompatible (i.e., effectively sterile) when mated with wildtype mosquitoes, and a strategy was proposed for the control of A. polynesiensis populations by repeated, inundative releases of CP males to disrupt fertility of wild females. Such a strategy could lead to suppression of the vector population and subsequently lead to a reduction in the transmission of filarial worms., Methodology/principal Findings: CP males and F1 male offspring from wild-caught A. polynesiensis females exhibit near equal mating competitiveness with F1 females under semi-field conditions., Conclusions/significance: While laboratory experiments are important, prior projects have demonstrated the need for additional testing under semi-field conditions in order to recognize problems before field implementation. The results reported here from semi-field experiments encourage forward progression toward small-scale field releases.

Published

2011

47. SYTO11 staining vs FISH staining: a comparison of two methods to stain Wolbachia pipientis in cell cultures.

Author

Venard CM, Crain PR, and Dobson SL

Subjects

Aedes cytology, Animals, Cell Line, Fluorescent Dyes toxicity, In Situ Hybridization, Fluorescence, Wolbachia isolation & purification

Abstract

Aims: The Aedes albopictus C7-10 cell line was infected with Wolbachia strains wRi and wAlbB to create C7-10R and C7-10B cell lines, respectively. We compared two different methods, fluorescence in situ hybridization staining and SYTO11 staining, to describe these new Wolbachia infections in C7-10., Methods and Results: Both staining methods were as efficient to stain Wolbachia. A formula was developed to quantify Wolbachia infection. The infection levels in C7-10B and C7-10R differed. The live stain SYTO11 was found to be useful to visualize Wolbachia in replicating host cells. Its potential cytotoxic effect at high concentration was investigated., Conclusions: C7-10 supported two Wolbachia infections, constituting new tools to study Wolbachia-host interactions. The different infection levels suggest that wRi and wAlbB have different requirements for their survival in C7-10 host cell line. Observation of SYTO11-stained live cells gave new insights on Wolbachia segregation pattern during host cell mitosis., Significance and Impact of the Study: Wolbachia-induced phenotypes in their arthropod and worm hosts could potentially be used to control pest populations. However, the mechanisms underlying these phenotypes are difficult to study because of Wolbachia's intracellular lifestyle. The Wolbachia infections in C7-10 described here could be used as in vitro models to investigate Wolbachia biology., (© No claim to US Goverment works. Letters in Applied Microbiology © 2011 The Society for Applied Microbiology.)

Published

2011

48. Costs and benefits of Wolbachia infection in immature Aedes albopictus depend upon sex and competition level.

Author

Gavotte L, Mercer DR, Stoeckle JJ, and Dobson SL

Subjects

Animals, Female, Male, Polymerase Chain Reaction, Sex Ratio, Aedes microbiology, Bacterial Infections physiopathology, Pest Control, Biological methods, Wolbachia

Abstract

Bacterial endosymbionts induce various effects on hosts and can dramatically impact host fitness and development. An example is provided by obligate, maternally-inherited Wolbachia, which infect a broad range of invertebrates. Wolbachia are capable of altering host reproduction, thereby promoting infection spread. Wolbachia also pose direct physiological costs and benefits to hosts, complicating their categorization as parasites or mutualists. This study examines for an effect of Wolbachia infection in intra-specific larval competition by Aedes albopictus mosquitoes, with the goal of examining for an impact of Wolbachia infection in mixed populations. Similar to prior work examining for an influence of Wolbachia infection on the fitness of A. albopictus in adults, the results presented here support the hypothesized impact of Wolbachia across all life stages, including immatures. The differential competitiveness of infected larvae detected in our experiments indicates that Wolbachia infected A. albopictus females are less competitive relative to uninfected females when competing under highly competitive conditions. In contrast, under low competitive pressures, infected females experience higher survivorship. Thus, Wolbachia infection shifts from parasitism to mutualism as a function of developmental conditions. Results are discussed in relation to the invasion and persistence of Wolbachia in A. albopictus populations. The results are important to the evolution of stable Wolbachia symbioses, including Wolbachia invasion of an uninfected population. The resulting infection dynamics that occur in an infected population are discussed., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

49. Artificial triple Wolbachia infection in Aedes albopictus yields a new pattern of unidirectional cytoplasmic incompatibility.

Author

Fu Y, Gavotte L, Mercer DR, and Dobson SL

Subjects

Animals, Drosophila microbiology, Fertility, Reproduction, Symbiosis, Wolbachia growth & development, Wolbachia metabolism, Aedes growth & development, Aedes microbiology, Cytoplasm microbiology, Wolbachia physiology

Abstract

Obligately intracellular Wolbachia bacteria infect numerous invertebrates and often manipulate host reproduction to facilitate the spread of infection. An example of reproductive manipulation is Wolbachia-induced cytoplasmic incompatibility (CI), which occurs commonly in insects. This CI has been the focus both of basic scientific studies of naturally occurring invasion events and of applied investigations on the use of Wolbachia as a vehicle to drive desired genotypes into insect populations ("gene drive" or "population replacement" strategies). The latter application requires an ability to generate artificial infections that cause a pattern of unidirectional incompatibility with the targeted host population. A suggested target of population replacement strategies is the mosquito Aedes albopictus (Asian tiger mosquito), an important invasive pest and disease vector. Aedes albopictus individuals are naturally "superinfected" with two Wolbachia types: wAlbA and wAlbB. Thus, generating a strain that is unidirectionally incompatible with field populations requires the introduction of an additional infection into the preexisting superinfection. Although prior reports demonstrate an ability to transfer Wolbachia infections to A. albopictus artificially, including both intra- and interspecific Wolbachia transfers, previous efforts have not generated a strain capable of invading natural populations. Here we describe the generation of a stable triple infection by introducing Wolbachia wRi from Drosophila simulans into a naturally superinfected A. albopictus strain. The triple-infected strain displays a pattern of unidirectional incompatibility with the naturally infected strain. This unidirectional CI, combined with a high fidelity of maternal inheritance and low fecundity effects, suggests that the artificial cytotype could serve as an appropriate vehicle for gene drive.

Published

2010

50. Sterile-insect methods for control of mosquito-borne diseases: an analysis.

Author

Alphey L, Benedict M, Bellini R, Clark GG, Dame DA, Service MW, and Dobson SL

Subjects

Animals, Female, Humans, Male, Pest Control, Biological economics, Pest Control, Biological ethics, Pest Control, Biological standards, Culicidae physiology, Insect Vectors physiology, Pest Control, Biological methods

Abstract

Effective vector control, and more specifically mosquito control, is a complex and difficult problem, as illustrated by the continuing prevalence (and spread) of mosquito-transmitted diseases. The sterile insect technique and similar methods control certain agricultural insect pest populations in a species-specific, environmentally sound, and effective manner; there is increased interest in applying this approach to vector control. Such an approach, like all others in use and development, is not a one-size-fits-all solution, and will be more appropriate in some situations than others. In addition, the proposed release of pest insects, and more so genetically modified pest insects, is bound to raise questions in the general public and the scientific community as to such a method's efficacy, safety, and sustainability. This article attempts to address these concerns and indicate where sterile-insect methods are likely to be useful for vector control.

Published

2010