Shioji Ishiwatari scite author profile

Some ingredients of dermatological formulations result in skin irritation and allergy. In particular, preservatives have been reported extensively as a cause of allergic contact dermatitis. The study focused on parabens which have been used extensively as antimicrobial preservatives in foods, drugs and cosmetics. The aim of this study was to clarify the effects of the daily use of methyl paraben (MP) on human skin.The concentrations of MP in the stratum corneum (SC) of the human forearm were measured using the cup method and GC-MS after daily applications of MP containing formulations. The study also investigated the effects of long-term exposure to MP on keratinocytes in vitro. Normal human keratinocytes and the skin equivalents were cultured in the medium containing MP. The following changes were analysed: proliferating ability, apoptotic cells, morphological changes, mRNA and protein expressions.After 1 month of daily applications of MP containing formulations, MP remained unmetabolized and persisted slightly in the SC. MP decreased the proliferating ability of keratinocytes and changed the cell morphology. MP also decreased the expressions of hyaluronan synthase 1 and 2 mRNAs and type IV collagen. In contrast, it increased the expressions of involucrin and HSP27. Furthermore, MP influenced the epidermal differentiation of the skin equivalent.These results suggest that MP exposure through application of dermatological formulations results in MP persistence and accumulation in the SC, and that MP might influence the aging and differentiation of keratinocytes. reports the results of the evaluation studies conducted to determine whether MP in dermatological formulations persists in the human skin and the effect of long-term exposure to low MP concentrations as a stressor on skin keratinocytes in vitro.2 S. ISHIWATARI ET AL.

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Manganese Transport in the Neural Circuit of Rat CNS

Takeda

Kodama

Ishiwatari

et al. 1998

Brain Research Bulletin

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In vivo stimulation-induced release of manganese in rat amygdala

1998

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Manganese uptake into rat brain during development and aging

1999

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Manganese (Mn) is an essential metal and plays an important role in the brain. To evaluate Mn uptake into the brain during development and aging, 54Mn concentrations in the brain of rats aged from 5 days to 95 weeks were measured after injection of 54MnCl2. 54Mn concentration in the brain of 5-day-old rats was the highest of all age groups tested. The liver and blood of 5-day-old rats also showed the highest 54Mn concentrations among the age groups. These results suggest that Mn is required in a high amount during infancy and that a sufficient Mn supply is critical for normal brain development. The high uptake of Mn into the brain of neonatal rats may be due to high levels of Mn in the blood, which may be supplied from the liver. In the 5-day-old brain, 54Mn was relatively concentrated in the hippocampal CA3 and dentate gyrus and the pons. In the aging brain, 54Mn was relatively concentrated in the inferior colliculi, olivary nuclei and red nuclei.

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Influence of transferrin on manganese uptake in rat brain

Takeda¹,

Ishiwatari²,

Okada³

2000

J. Neurosci. Res.

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To evaluate the influence of transferrin (Tf) on manganese (Mn) uptake in the brain, pH 8.6 buffer-treated (54)MnCl(2), which has a higher affinity for Tf than untreated (54)MnCl(2), and Tf-bound (54)Mn were prepared. When pH 8.6 buffer-treated (54)MnCl(2) and untreated (54)MnCl(2) were incubated with apo-Tf in Tris (2-amino-2-hydroxymethylpropane-1,3-diol)-HCl buffer, the percentage of the total (54)MnCl(2) bound to Tf was approximately 85% and 10%, respectively. One hour after intravenous (iv) injection of pH 8.6 buffer-treated (54)MnCl(2) and untreated (54)MnCl(2), both tracers were concentrated similarly in the choroid plexus in the ventricles and distributed in other brain regions. Six days after iv injection, both pH 8.6 buffer-treated (54)MnCl(2) and untreated (54)MnCl(2) tracers were concentrated in the superior olivary complex, inferior colliculi, and red nuclei, although the former radioactivity was lower than the latter. Moreover, Tf-bound (54)Mn was prepared and injected iv into rats. The radioactivity from Tf-bound (54)Mn, which was also concentrated in the same regions, e.g., the superior olivary complex, was the lowest of all three traces. Tf-bound (54)Mn was stable during incubation with serum for 1 hr. It is likely that more Mn is transported into the brain when Mn is not bound to Tf. When Tf-bound (54)Mn and (54)MnCl(2) were unilaterally injected into the lateral ventricle, radioactivity was distributed only around the ipsilateral ventricle in the Tf-bound (54)Mn group 7 days after injection, whereas it was distributed more extensively in the (54)MnCl(2) group. It is likely that Tf-bound Mn in the CSF is less readily transported into the brain parenchymal cells than the non-Tf-bound form. These results suggest that Mn is transported into the brain efficiently via a Tf-independent uptake system.

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