Abstract:
Environmental exposure to arsenic is a global health concern which is linked to a number
of diseases causing adverse health effects. Chronic arsenic exposure affects an estimated number
of 200 million people worldwide through contaminated groundwater and food. In Bangladesh, the
arsenic problem is very devastating and related health problems have yet not been fully
investigated. There is consistent evidence that chronic arsenic toxicity may cause cancer and
numerous other pathological effects in humans as well as immune toxicity. Several cross-sectional
studies have indicated that arsenic adversely affects the immune system in both children and adults.
However, very few longitudinal studies in human have further indicated that the adverse effects of
the toxicant start from in utero. Exposure to arsenic has also been found to increase risk of anemia
by disrupting cell membranes and declining erythrocyte survival. However, findings from
epidemiological studies are equivocal in support to this association.
This thesis delineates the plausible effects of chronic arsenic exposure from in utero to pre-
adolescent age and the detrimental effects on fetal and infant health and development, as well as
undesirable health effects later in life. The overall objective of the present study has been focused
to investigate the impact of prenatal and concurrent exposure to arsenic in 9 years old school-going
children on anemia and immune function. The studies were nested into a large food and
micronutrient supplementation trial conducted in a rural area of Bangladesh called Matlab.
Mother-child pairs were followed from early gestation to 9 years. Elevated arsenic concentrations
in groundwater are common in Matlab where 95% of the population uses hand-pumped tubewell
water as their main source of drinking water with 43% of the wells exceeding the World Health
Organization (WHO) guideline value of 10 µg/L, and 34% exceeded the Bangladesh standard of
50 μg/L.
Arsenic exposure in the present studies was assessed based on the concentrations of the
sum of inorganic arsenic and its methylated metabolites (monomethylarsonic acid (MMA) and
dimethylarsinic acid (DMA)) in maternal urine during pregnancy and child urine at 4.5 and 9 years
of age (Urinary arsenic: U-As). Hemoglobin (Hb) was measured in whole blood in pregnant
women at gestation week (GW) 14 and 30, and in children at 4.5 and 9 years of age. Other markers
that were studied in 4.5 and 9 years old children were- anemia related biomarkers (soluble
Transferrin Receptor (sTfR), ferritin, vitamin B12, folate, vitamin A, hepcidin, zinc), inflammatory
markers (C-reactive protein (CRP)), oxidative stress marker (8-hydroxy-2'-deoxyguanosine (8-
OHdG)) in plasma, and immune marker (signal joint T cell receptor excision circles (sjTRECs)
and indicator of senescence (telomere length (TL)) in peripheral blood mononuclear cells (PBMC).
No effects of arsenic exposure on Hb levels and anemia biomarkers was found in children.
About 28% of the women were found to be anemic at GW14, 35% at GW30 and 23% at both time
points. The prevalence of anemia was low in 4.5 years old children (5%) that somewhat increased
in 9 years old (15%). Only 2.5% children had iron deficiency anemia according to sTfR cut-off at
9 years. The risk (Odds Ratio (OR)) of being anemic in 9 years of age was 1.8 and 2.3 fold higher
if their mothers were anemic at either GW14 or GW30, respectively, compared to non-anemic
mothers. The chances of having anemia at 9 years was 3 times higher if the mothers were anemic
at both time points (OR=3.05). This risk increased about 6 times (OR=5.9) when the children were
additionally anemic at 4.5 years. No impact of maternal anemia was observed at 4.5 years of age.
Multiple Micronutrient (MM) supplementation significantly improved body mass index-for-age z-
score (BAZ) and reduced markers of inflammation in 9 years old children.
In multivariable-adjusted spline regression analyses, both prenatal (U-As at GW8) and
childhood arsenic exposure (U-As at 4.5 and 9 years of age) above U-As of 45 µg/L (spline knot)
strongly reduced TL and sjTRECs at 9 years. However, concurrent U-As below the spline knot
was significantly positively associated with TL and sjTRECs at 9 years of age. It is plausible that
there is a critical threshold of arsenic exposure beyond which exposed cells either undergo
telomere attrition or elongation of TL. In 9 years old children, fraction of MMA above spline knot
7% were significantly inversely associated with both TL and sjTRECs reflecting increased toxicity
due to less-efficient arsenic metabolism. Prenatal and childhood arsenic exposure were positively
associated with 8-OHdG at 9 years which in turn was inversely associated with sjTRECs at 9 years.
However, adjustment with 8-OHdG did not change the estimated association of U-As with
sjTRECs suggesting that the mechanisms of 8-OHdG-mediated oxidative damage of naïve T cells
may be distinct from arsenic-induced oxidative damage with little overlap.
We can, therefore, summarize that chronic arsenic exposure did not appear to have any
impact on anemia status of children. Anemia during pregnancy and early childhood are important
risk factors for the occurrence of anemia in school-age children. Maternal supplementation during
pregnancy with MM had beneficial effects on child nutritional status and reduced markers of
inflammation in the children. Chronic arsenic exposure from early life can result in TL attrition
and lower production of naïve T cells potentially leading to immunosenescence and
immunodeficiency. The adverse effects of arsenic on sjTRECs and TL may be mediated by
pathways other than 8-OHdG-induced oxidative stress, e.g. impairment in DNA repair enzymes
and synthesis.