TY - JOUR
T1 - A surge in serum mucosal cytokines associated with seroconversion in children at risk for type 1 diabetes
AU - the ENDIA Study Group
AU - Harrison, Leonard C.
AU - Bandala-Sanchez, Esther
AU - Oakey, Helena
AU - Colman, Peter G.
AU - Watson, Kelly
AU - Kim, Ki Wook
AU - Wu, Roy
AU - Hamilton-Williams, Emma
AU - Stone, Natalie
AU - Thomson, Rebecca L.
AU - Vuillermin, Peter J.
AU - Soldatos, Georgia
AU - Rawlinson, William D.
AU - McGorm, Kelly J.
AU - Morahan, Grant
AU - Barry, Simon C.
AU - Sinnott, Richard O.
AU - Wentworth, John M.
AU - Couper, Jennifer J.
AU - Penno, Megan A.S.
AU - Barry, Simon C.
AU - Craig, Maria E.
AU - Colman, Peter G.
AU - Couper, Jennifer J.
AU - Davis, Elizabeth A.
AU - Hamilton-Williams, Emma
AU - Harris, Mark
AU - Harrison, Leonard C.
AU - Kim, Ki Wook
AU - Morahan, Grant
AU - Oakey, Helena
AU - Penno, Megan A.S.
AU - Rawlinson, William D.
AU - Sinnott, Richard O.
AU - Soldatos, Georgia
AU - Thomson, Rebecca L.
AU - Vuillermin, Peter J.
AU - Anderson, Amanda J.
AU - Ashwood, Pat
AU - Brown, James D.
AU - Hu, William
AU - Huynh, Dao
AU - McGorm, Kelly J.
AU - Tye-Din, Jason
AU - Huynh, Tony
AU - Morbey, Claire
AU - Lopez, Prudence
AU - Beresford, Sarah
AU - Bertram, Samantha
AU - Bezuidenhout, Debra
AU - Brandrick, Susan
AU - Butterworth, Carlie
AU - Catteau, Jacki
AU - Clements, Nakita
AU - Gartrell, Kyana
AU - Gilbert, Abbey
AU - Griffiths, Helen
AU - Gwiazdzinski, Alison
AU - Hall, Candice
AU - Harper, Gail
AU - Hulley, Amanda
AU - Hoffman, Mikayla
AU - Kludas, Renee
AU - Moore, Belinda
AU - Ramoso, Benjamin
AU - Roberts, Alison
AU - Tully, Alexandra
AU - Vicary, Isabelle
AU - Wood, Rosemary
AU - Battersby, Rachel
AU - Hope, Chris
AU - Sadlon, Tim
AU - Roth-Schulze, Alexandra
AU - Wong, Ying Ying
AU - Zozaya-Valdes, Enrique
AU - Binkowski, Sabrina
AU - Brittain, Bek
AU - Bui, Minh
AU - Minhaj, Asma
AU - Naselli, Gaetano
AU - Ngui, Katrina
AU - Nguyen, Trung
AU - Stone, Natalie
AU - Ward, Emily
AU - Xu, Yan
AU - Yau, Cynthia
PY - 2023/9
Y1 - 2023/9
N2 - Aims/Introduction: Autoantibodies to pancreatic islet antigens identify young children at high risk of type 1 diabetes. On a background of genetic susceptibility, islet autoimmunity is thought to be driven by environmental factors, of which enteric viruses are prime candidates. We sought evidence for enteric pathology in children genetically at-risk for type 1 diabetes followed from birth who had developed islet autoantibodies (“seroconverted”), by measuring mucosa-associated cytokines in their sera. Materials and Methods: Sera were collected 3 monthly from birth from children with a first-degree type 1 diabetes relative, in the Environmental Determinants of Islet Autoimmunity (ENDIA) study. Children who seroconverted were matched for sex, age, and sample availability with seronegative children. Luminex xMap technology was used to measure serum cytokines. Results: Of eight children who seroconverted, for whom serum samples were available at least 6 months before and after seroconversion, the serum concentrations of mucosa-associated cytokines IL-21, IL-22, IL-25, and IL-10, the Th17-related cytokines IL-17F and IL-23, as well as IL-33, IFN-γ, and IL-4, peaked from a low baseline in seven around the time of seroconversion and in one preceding seroconversion. These changes were not detected in eight sex- and age-matched seronegative controls, or in a separate cohort of 11 unmatched seronegative children. Conclusions: In a cohort of children at risk for type 1 diabetes followed from birth, a transient, systemic increase in mucosa-associated cytokines around the time of seroconversion lends support to the view that mucosal infection, e.g., by an enteric virus, may drive the development of islet autoimmunity.
AB - Aims/Introduction: Autoantibodies to pancreatic islet antigens identify young children at high risk of type 1 diabetes. On a background of genetic susceptibility, islet autoimmunity is thought to be driven by environmental factors, of which enteric viruses are prime candidates. We sought evidence for enteric pathology in children genetically at-risk for type 1 diabetes followed from birth who had developed islet autoantibodies (“seroconverted”), by measuring mucosa-associated cytokines in their sera. Materials and Methods: Sera were collected 3 monthly from birth from children with a first-degree type 1 diabetes relative, in the Environmental Determinants of Islet Autoimmunity (ENDIA) study. Children who seroconverted were matched for sex, age, and sample availability with seronegative children. Luminex xMap technology was used to measure serum cytokines. Results: Of eight children who seroconverted, for whom serum samples were available at least 6 months before and after seroconversion, the serum concentrations of mucosa-associated cytokines IL-21, IL-22, IL-25, and IL-10, the Th17-related cytokines IL-17F and IL-23, as well as IL-33, IFN-γ, and IL-4, peaked from a low baseline in seven around the time of seroconversion and in one preceding seroconversion. These changes were not detected in eight sex- and age-matched seronegative controls, or in a separate cohort of 11 unmatched seronegative children. Conclusions: In a cohort of children at risk for type 1 diabetes followed from birth, a transient, systemic increase in mucosa-associated cytokines around the time of seroconversion lends support to the view that mucosal infection, e.g., by an enteric virus, may drive the development of islet autoimmunity.
KW - Islet autoantibody
KW - Seroconversion
KW - Serum cytokine
UR - http://www.scopus.com/inward/record.url?scp=85162114575&partnerID=8YFLogxK
U2 - 10.1111/jdi.14031
DO - 10.1111/jdi.14031
M3 - Article
C2 - 37312283
AN - SCOPUS:85162114575
SN - 2040-1116
VL - 14
SP - 1092
EP - 1100
JO - Journal of Diabetes Investigation
JF - Journal of Diabetes Investigation
IS - 9
ER -