Research progress on shortened telomere length in newborns and impaired cardiovascular metabolic health in children caused by exposure to cadmium during pregnancy

Cadmium exposure during pregnancy is a non-negligible public health problem which may increase the risk of shortened telomere length in newborns and cardiovascular metabolic health damage in children, and has attracted attention from many researchers in recent years. This article reviewed recent studies both domestically and internationally on the associations among cadmium exposure during pregnancy, shortened telomere length in newborns, and cardiovascular metabolic abnormalities in children, and briefly outlined possible mechanisms of shortened telomere length in newborns by cadmium exposure during pregnancy. Current research results showed that cadmium exposure during pregnancy is related to shortened telomere length in newborns and cardiovascular metabolic abnormalities in children, and shortened telomere length in newborns is also related to cardiovascular metabolic abnormalities in children. It suggested that telomere length in newborns may be a biomarker reflecting cardiovascular metabolic abnormalities in children caused by cadmium exposure during pregnancy. In addition, the current potential mechanisms of cadmium exposure during pregnancy accelerating neonatal telomere length shortening include inflammatory reaction, mitochondrial dysfunction, antioxidant consumption/antioxidant enzyme inactivation, and DNA methylation, and these biological mechanisms are associated with cardiovascular metabolic abnormalities through certain factors, such as obesity, elevated blood pressure, impaired fasting blood glucose, and dyslipidemia in children, suggesting that cardiovascular metabolic abnormalities in children may be programmed in early life, but there are still few relevant studies. In the future, research should be conducted on the association among cadmium exposure during pregnancy, telomere length, and offspring cardiovascular metabolism, as well as possible mediating efficacy and related biological mechanisms of telomere length, aiming to provide early-life biological information for the prevention of cardiovascular and metabolic diseases.