Cadium pathways during gestation and lactation in control vs. metallothionein 1,2-knockout mice.

Brako, E E; Wilson, A K; Jonah, M M; Blum, C A; Cerny, E A; Williams, K L; Bhattacharyya, M H

doi:10.1093/toxsci/71.2.154

Title: Cadium pathways during gestation and lactation in control vs. metallothionein 1,2-knockout mice.

Journal Article · Wed Jan 01 00:00:00 EST 2003 · Toxicol. Sci.

DOI:https://doi.org/10.1093/toxsci/71.2.154· OSTI ID:961025

Brako, E E; Wilson, A K; Jonah, M M; Blum, C A; Cerny, E A; Williams, K L; Bhattacharyya, M H

Effects of metallothionein (MT) on cadmium absorption and transfer pathways during gestation and lactation in mice were investigated. Female 129/SvJ metallothionein-knockout (MT1,2KO) and metallothionein-normal (MTN) mice received drinking water containing trace amounts of {sup 109}CdCl{sub 2} (0.15 ng Cd/ml; 0.074 {mu}Ci {sup 109}Cd/ml). {sup 109}Cd and MT in maternal, fetal, and pup tissues were measured on gestation days 7, 14, and 17 and lactation day 11. In dams, MT influenced both the amount of {sup 109}Cd transferred from intestine into body (two- to three-fold higher in MT1,2KO than MTN dams) and tissue-specific {sup 109}Cd distribution (higher liver/kidney ratio in MT1,2KO dams). Placental {sup 109}Cd concentrations in MT1,2KO dams were three- and seven-fold higher on gestation days 14 and 17, respectively, than in MTN dams. Fetal {sup 109}Cd levels were low in both mouse types, but at least 10-fold lower in MTN fetuses. MT had no effect on the amount of {sup 109}Cd transferred to pups via milk; furthermore, 85--90% of total pup {sup 109}Cd was recovered in gastrointestinal tracts of both types, despite high duodenal MT only in MTN pups. A relatively large percentage of milk-derived intestinal {sup 109}Cd was transferred to other pup tissues in both MT1,2KO and MTN pups (14 and 10%, respectively). These results demonstrate that specific sequestration of cadmium by both maternal and neonatal intestinal tract does not require MT. Although MT decreased oral cadmium transfer from intestine to body tissues at low cadmium exposure levels, MT did not play a major role in restricting transfer of cadmium from dam to fetus via placenta and to neonate via milk.

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Research Organization:: Argonne National Lab. (ANL), Argonne, IL (United States)

Sponsoring Organization:: National Institutes of Health (NIH)

DOE Contract Number:: DE-AC02-06CH11357

OSTI ID:: 961025

Report Number(s):: ANL/BIO/JA-43920; TOSCF2; TRN: US201008%%923

Journal Information:: Toxicol. Sci., Vol. 71, Issue 2003; ISSN 1096-6080

Country of Publication:: United States

Language:: ENGLISH

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13 HYDRO ENERGY
ABSORPTION
ANIMAL TISSUES
BODY
CADMIUM
CADMIUM 109
CONTROL
DISTRIBUTION
DRINKING WATER
FEMALES
FETUSES
GASTROINTESTINAL TRACT
INTESTINES
LACTATION
LEVELS
METALLOTHIONEIN
MICE
MILK
NEONATES
PLACENTA
PYRAZOLINES
TRACE AMOUNTS

Title: Cadium pathways during gestation and lactation in control vs. metallothionein 1,2-knockout mice.

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