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Investigation of neural-like signalling in human germinal centres

dc.contributor.authorPapa, Ilenia
dc.date.accessioned2026-02-23T01:02:03Z
dc.date.available2026-02-23T01:02:03Z
dc.date.issued2017-04
dc.descriptionvi, 170 pages : |b illustrations, charts + |e 1 USB flash drive
dc.description.abstractProtective high affinity antibody responses depend on competitive selection of B cells carrying somatically-mutated BCRs by Tfh cells in germinal centres (GC). The rapid T:B synaptic interactions that occur during this process are reminiscent of those within the nervous system. Therefore, we asked whether neural transmission pathways participate in GC selection. This thesis shows that a proportion of human, but not mouse, GC Tfh cells contained dense-core granules marked by chromogranin B, which are normally found in neuronal pre-synaptic terminals and their main function is to store neuropeptides and/or catecholamines, such as dopamine. Further, GC Tfh cells contained high concentrations of dopamine and released it upon cognate interaction with GC B cells. In a search for dopamine-mediated effects on human GC B cells, we identified selective and rapid upregulation of ICOSL. ICOSL-mediated costimulation has been shown to increase the contact area between GC B cells and Tfh cells, which maximises antigen presentation and delivery of Tfh cell help. In mice, upregulation of ICOSL by GC B cells is driven by TFH expressed CD40L in a process that takes hours. In this thesis, we show that ICOSL upregulation by human GC B cells did not depend on CD40L. of note, high amount of intracellular preformed ICOSL was expressed in human GC B cells and translocated to the surface within minutes of stimulation by dopamine. ICOSL was able to enhance accumulation of CD40L and chromogranin B granules at the human Tfh:GC B cell synapse and increase the contact area. Further, mathematical modelling suggests that faster dopamineinduced T:B interactions do not change affinity maturation but rather increase total output and accelerate it by days. This thesis demonstrates that Tfh cells have co-opted yet another form of synaptic help that may provide an advantage in the face of infection.
dc.identifier.other991027261635507631
dc.identifier.urihttps://hdl.handle.net/1885/733806008
dc.provenanceDigitised by The Australian National University in 2026
dc.subjectT cells.
dc.subjectB cells.
dc.subjectCellular immunity
dc.titleInvestigation of neural-like signalling in human germinal centres
dc.typeThesis (PhD)
dcterms.valid2017
local.contributor.affiliationPapa, Ilenia, Department of Immunology and Infectious Disease Humoral Immunity and Autoimmunity Group. The John Curtin School of Medical Research, ANU
local.contributor.supervisorVinuesa, Carola
local.description.notesIncludes bibliographical references
local.description.notesAccompanying USB flash drive contains a PDF copy of the thesis dated Apr 2017
local.description.notesANU Thesis access restricted until 2020.05.05; |5 ANU/ANV
local.description.notesJohn Curtin School of Medical Research
local.identifier.doi10.25911/C7TK-FG83
local.mintdoimint
local.type.degreeDoctor of Philosophy (PhD)

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