Lund University Publications

@phdthesis{7eadaea6-71d2-4c5d-ac51-de65083ce90b,
  abstract     = {{<p class="bodytext">Objective </p><br>
<br>
<p class="bodytext">While the incidence of children suffering<br>
from autoimmune type 1 diabetes (T1D) is increasing in Sweden and worldwide,<br>
the underlying etiology and cellular mechanisms behind this remain unknown. The<br>
predisposition of the high-risk HLA DR-DQ genotype and as yet unknown<br>
environmental triggers lead to autoimmunity and the onset of T1D, which is<br>
preceded by islet beta-cell autoantibodies acting as markers for ongoing<br>
autoimmunity. This study aims to identify peripheral blood biomarkers to<br>
predict and explain cellular autoimmune processes leading to beta-cell loss<br>
before and after seroconversion. We also investigate whether immune tolerance<br>
treatment with GAD-alum affects T-cells in nondiabetic children at increased<br>
genetic risk of T1D prospectively followed in longitudinal studies.</p><br>
<br>
<p class="bodytext"> </p><br>
<br>
<p class="bodytext">Methods</p><br>
<br>
<p class="bodytext">Children participating in the Swedish TEDDY<br>
cohort with or without islet beta-cell autoantibodies were studied. Complete<br>
blood count in these children was analyzed and related to autoantibody status,<br>
gender, HLA genotype, and glucose metabolism measures. HbA1c, a predictive<br>
biomarker for a subsequent autoantibody or T1D, was analyzed in the TEDDY<br>
cohort from Finland, Germany, Sweden, and the US. HbA1c trajectories were also<br>
studied in the progression from developing a single autoantibody to diagnosing<br>
T1D. Children aged 4–17.99 years at enrollment participating in the DiAPREV-IT2<br>
clinical trial were studied and different T-cells were immunophenotyped to<br>
investigate the immune tolerance treatment with GAD-alum.</p><br>
<br>
<p class="bodytext"> </p><br>
<br>
<p class="bodytext">Results</p><br>
<br>
<p class="bodytext">A reduction in neutrophil counts primarily<br>
in boys and children with the HLA-DR3-DQ2/DR4-DQ8 genotype, and a reduction of<br>
red blood cell counts, hemoglobin, and hematocrit primarily in girls and in<br>
children with HLA-DR3-DQ2/DR4-DQ8 were inversely associated with autoimmunity<br>
and the number of beta-cell autoantibodies. A reduction in red blood cell<br>
indices (MCH and MCV) was associated with increased HbA1c, by increased number<br>
of beta-cell autoantibodies. Reduction in red blood cell count, hemoglobin, and<br>
hematocrit levels were associated with increased fasting blood glucose.<br>
Increased red blood cell counts and hemoglobin, hematocrit, and MCH were<br>
associated with increased fasting insulin. Increased HbA1c was associated with<br>
an increased risk of T1D regardless of the number and type of autoantibodies.<br>
The development of IA-2A as a second or fourth autoantibody was associated with<br>
decreased HbA1c levels. The HbA1c trajectories presented a more rapid increase<br>
of HbA1c as the number of autoantibodies increased from one to three.<br>
GAD-alum-treated children had lower T-helper cell (CD3+ CD4+ T-cells ) and<br>
cytotoxic T-cell (CD3+ CD8+ T-cells) levels 18–24 months after two<br>
immunizations with GAD-alum. </p><br>
<br>
<p class="bodytext"> </p><br>
<br>
<p class="bodytext">Conclusion </p><br>
<br>
<p class="bodytext">Reductions in neutrophil levels, red blood<br>
cells, and red blood cell parameters and increased levels of HbA1c are all<br>
associated with multiple autoantibodies, reflecting a prominent islet<br>
autoimmune burden. The reduction in different complete blood counts with<br>
increasing numbers of beta-cell autoantibodies may suggest an unknown effect of<br>
impaired beta-cell function on hematopoiesis. Predicted trajectories of HbA1c<br>
could be used to further develop a model to predict the time to T1D diagnosis<br>
in children with multiple autoantibodies. The decrease in HbA1c associated with<br>
the appearance of IA-2A may be a consequence of aggressive autoimmune<br>
destruction of beta-cells leading to insulin leakage into the bloodstream.<br>
These results should prove helpful for understanding the pathogenesis of T1D<br>
and better predicting the onset of T1D in seroconverted children. Immunization<br>
with GAD-alum has a long-term effect on T-cells 18–24 months after treatment.</p>}},
  author       = {{Salami, Falastin}},
  isbn         = {{978-91-8021-280-9}},
  issn         = {{1652-8220}},
  keywords     = {{Type 1 diabetes, biomarkers, children, CBC, autoimmunity, neutrophils, red blood cells, hemoglobin, HbA1c T-cells, prospective follow-up, GAD-alum}},
  language     = {{eng}},
  number       = {{2022:119}},
  publisher    = {{Lund University, Faculty of Medicine}},
  school       = {{Lund University}},
  series       = {{Lund University, Faculty of Medicine Doctoral Dissertation Series}},
  title        = {{Peripheral blood biomarkers of cell-specific autoimmunity. Studies in children at increased risk for type 1 diabetes.}},
  url          = {{https://lup.lub.lu.se/search/files/124564386/opponent_ex_Falastin.pdf}},
  year         = {{2022}},
}