Vývoj protektivní imunitní odpovědi v žaludečním epitelu myší infikovaných \kur{Cryptosporidium muris} a \kur{Cryptosporidium andersoni} / Development of protective immune response in gastric mucosa of mice infected with \kur{Cryptosporidium muris} and \kur{Cryptosporidium andersoni}

JALOVECKÁ, Marie

January 2011

The development of immune response accountable for the ability to control Cryptosporidium muris TS03 infection was studied using immunocompetent and various types of immunodeficient mouse models. Subsequently the immune response was characterized by analysis of leukocyte infiltration and cytokine production in gastric epithelium. Moreover, the potentiality of immunocompetent mice to develop effective immune response to C. andersoni LI03 infection with consequent protection to consequent infection of the same mice with C. muris TS03 was also studied by monitoring oocysts shedding, leukocyte infiltration of the gastric mucosa and cytokine production in ex vivo cultures of splenocytes.

Structure-Activity Studies of Glycosphingolipids as Antigens of Natural Killer T Cells

Goff, Randal Donald

26 July 2006

Glycosphingolipids (GSLs), composed of a polar saccharide head and a lipophilic ceramide tail, are ubiquitous components of the plasma membrane of eukaryotic cells. They serve in many regulatory capacities and have antigenic properties towards natural killer T (NKT) cells of the innate immune system. Critical to the recognition of glycosylceramides by NKT cells are antigen presenting cells (APC), such as dendritic cells, which are responsible for binding, processing, and delivery of ligands to these lymphocytes. This event is mediated by CD1d, a major histocompatibility complex-like protein expressed on the surface of APCs, which binds GSL antigens by the ceramide moiety and presents the polar group to the T cell receptors of CD1d-restricted cells. The subsequent immune response involves NKT cell proliferation and emission of numerous cytokines, such as interferon-gamma (IFN-gamma) and interleukin-4 (IL-4), resulting in the stimulation of the innate and adaptive immune systems through maturation of APCs, activation of T cells, and secretion of antibodies by B cells. To understand the structure-activity relationship between GSLs and NKT cell activity and the requirements for intracellular processing of antigens, analogs of the model compound alphaGalCer (KRN-7000) have been synthesized. These include fluorophore-appended 6”-amino-α-galactosylceramides and N-alkenoyl GSLs, such as PBS-57, a potent alphaGalCer surrogate useful in NKT cell stimulation studies. A nonantigenic beta-C-galactosylceramide has also been prepared as an inhibitor of these innate lymphocytes. To probe the potential for using NKT cells to bias the immune system between the proinflammatory TH1 response or the immunomodulatory TH2 mode, versions of alphaGalCer with shortened ceramides have been created. One of these truncated analogs, PBS-25, has successfully been cocrystallized with CD1d and the binary complex structure solved by X-ray crystallography. Synthetic glycosphingolipids derived from Novosphingobium capsulatum and Sphingomonas paucimobilis have also been made. In assays with classical Valpha14i/Valpha24i NKT cell lines, these Gram-negative bacterial antigens were recognized directly and specifically by host immune systems through CD1d-restriction, unlike GSL-deficient microbes (e.g., Salmonella typhimurium). A search for other GSL-bearing alpha-proteobacteria led to the discovery of another natural glycosphingolipid, an N-alkenoylphytosphingoid-alpha-galactoside, isolated from the outer membrane of Ehrlichia muris.

glycosphingolipid

GSL

natural killer T cell

NKT cell

alpha-galactosylceramide

ceramide

CD1d

glycolipid

Sphingomonas

Novosphingobium capsulatum

Sphingomonas paucimobilis

Ehrlichia

Ehrlichia muris

PBS-25

PBS-57

dendritic cell

DC

C-glycoside

aGalCer

KRN-7000

TH1

TH2

interferon-gamma

interleukin-4

synthesis

structure-activity relationship

Biochemistry

Chemistry