Xue Ying He scite author profile

Hydroxysteroid (17beta) dehydrogenase 10 (HSD10) is a mitochondrial multifunctional enzyme encoded by the HSD17B10 gene. Missense mutations in this gene result in HSD10 deficiency, whereas a silent mutation results in mental retardation, X-linked, syndromic 10 (MRXS10). Here we report a novel missense mutation found in the HSD17B10 gene, namely c.194T>C transition (rs104886492), brought about by the loss of two forked methyl groups of valine 65 in the HSD10 active site. The affected boy, who possesses mutant HSD10 (p.V65A), has a neurological syndrome with metabolic derangements, choreoathetosis, refractory epilepsy and learning disability. He has no history of acute decompensation or metabolic acidosis whereas his urine organic acid profile, showing elevated levels of 2-methyl-3-hydroxybutyrate and tiglylglycine, is characteristic of HSD10 deficiency. His HSD10 activity was much lower than the normal control level, with normal β-ketothiolase activity. The c.194T>C mutation in HSD17B10 can be identified by the restriction fragment polymorphism analysis, thereby facilitating the screening of this novel mutation in individuals with intellectual disability of unknown etiology and their family members much easier. The patient's mother is an asymptomatic carrier, and has a mixed ancestry (Hawaiian, Japanese and Chinese). This demonstrates that HSD10 deficiency patients are not confined to a particular ethnicity although previously reported cases were either Spanish or German descendants.

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Polyethylene Glycol Conjugated Bovine Hemoglobin Containing 15% MetHb Plays Approving Effect in Exchange Transfusion Rabbit Model

He¹,

Guan²,

Zhang³

et al. 2007

Artificial Cells, Blood Substitutes, and Biotechnology

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PEG-bHb was developed by Kaizheng Biotech (Beijing, China), and pre-clinical research was completed. The objective of this study was to investigate the safe concentration of MetHb in PEG-bHb. The study was accomplished by examining the effects of PEG-bHb containing 5%, 8%, 15%, and 25% methemoglobin (MetHb), respectively, on cardiovascular system, blood chemistry, pathology of liver and kidney in rabbits following a 50% exchange transfusion. The results showed that PEG-bHb containing 5%, 8%, 15%, and 25% MetHb could keep four groups of experimental rabbits (5/5) alive until the 8th day after 50% exchange infusion as autologous whole blood did, and were superior to dextran 40 (2/5). MetHb concentration in PEG-bHb, no more than 25%, did not affect the PEG-bHb function on resuscitation of hemorrhaged rabbits by physiological measurements and blood chemistry assays. Histology study using optic and electron microscopy showed that there were slight pathological changes in hepatocytes and renal tubule epithelia in rabbits, which were infused by PEG-bHb containing 5%, 8%, and 15% MetHb. Partial organelles collapse was observed in rabbits resuscitated by PEG-bHb containing 25% MetHb. In conclusion, PEG-bHb is safe and effective when the MetHb concentration is at or below 15%.

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Simulated enzyme inhibition-based strategy for ultrasensitive colorimetric biothiol detection based on nanoperoxidases

Wang

et al. 2019

Chem. Commun.

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Xue Ying He

Abundant type 10 17β-hydroxysteroid dehydrogenase in the hippocampus of mouse Alzheimer’s disease model

Identity of heart and liver l-3-hydroxyacyl coenzyme A dehydrogenase

A Novel Mutation in the HSD17B10 Gene of a 10-Year-Old Boy with Refractory Epilepsy, Choreoathetosis and Learning Disability

Polyethylene Glycol Conjugated Bovine Hemoglobin Containing 15% MetHb Plays Approving Effect in Exchange Transfusion Rabbit Model

Simulated enzyme inhibition-based strategy for ultrasensitive colorimetric biothiol detection based on nanoperoxidases

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