Characterization of the complex between native and reduced bovine serum albumin with aquacobalamin and evidence of dual tetrapyrrole binding

Dereven’kov, Ilia А.; Hannibal, Luciana; Макаров, С. В.; Makarova, A. S.; Molodtsov, Pavel A.; Койфман, О. И.

doi:10.1007/s00775-018-1562-8

Cited by 10 publications

(3 citation statements)

References 63 publications

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“…Therefore, it is currently unknown whether GSD patients with highly elevated vitamin B 12 have a saturated cobalamin binding capacity of its authentic transport proteins. If so, excess vitamin B 12 might bind to non-dedicated proteins such as albumin [ 47 , 48 , 49 , 50 ] and the recently described immunocomplexes [ 51 , 52 , 53 ]. The biological activity of these protein complexes of vitamin B 12 is unknown and currently under investigation.…”

Section: Discussionmentioning

confidence: 99%

Elevated Plasma Vitamin B12 in Patients with Hepatic Glycogen Storage Diseases

Hinkel

Schmitt

Wurm

et al. 2020

JCM

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Background: Hepatic glycogen storage diseases (GSDs) are inborn errors of metabolism affecting the synthesis or breakdown of glycogen in the liver. This study, for the first time, systematically assessed vitamin B12 status in a large cohort of hepatic GSD patients. Methods: Plasma vitamin B12, total plasma homocysteine (tHcy) and methylmalonic acid concentrations were measured in 44 patients with hepatic GSDs and compared to 42 healthy age- and gender-matched controls. Correlations of vitamin B12 status with different disease markers of GSDs (including liver transaminase activities and triglycerides) as well as the vitamin B12 intake were studied. Results: GSD patients had significantly higher plasma vitamin B12 concentrations than healthy controls (p = 0.0002). Plasma vitamin B12 concentration remained elevated in GSD patients irrespective of vitamin B12 intake. Plasma vitamin B12 concentrations correlated negatively with triglyceride levels, whereas no correlations were detected with liver transaminase activities (GOT and GPT) in GSD patients. Merging biomarker data of healthy controls and GSD patients showed a positive correlation between vitamin B12 status and liver function, which suggests complex biomarker associations. A combined analysis of biomarkers permitted a reliable clustering of healthy controls versus GSD patients. Conclusions: Elevated plasma concentration of vitamin B12 (irrespective of B12 intake) is a common finding in patients with hepatic GSD. The negative correlation of plasma vitamin B12 with triglyceride levels suggests an influence of metabolic control on the vitamin B12 status of GSD patients. Elevated vitamin B12 was not correlated with GOT and GPT in our cohort of GSD patients. Merging of data from healthy controls and GSD patients yielded positive correlations between these biomarkers. This apparent dichotomy highlights the intrinsic complexity of biomarker associations and argues against generalizations of liver disease and elevated vitamin B12 in blood. Further studies are needed to determine whether the identified associations are causal or coincidental, and the possible impact of chronically elevated vitamin B12 on GSD.

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Section: Discussionmentioning

confidence: 99%

Elevated Plasma Vitamin B12 in Patients with Hepatic Glycogen Storage Diseases

Hinkel

Schmitt

Wurm

et al. 2020

JCM

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“…Aquacobalamin (H 2 OCbl) is a well-known cyanide antidote due to the high affinity of the Co(III) ion toward this toxin . However, the reaction between H 2 OCbl and CN – has some features that can decrease its efficacy as an antidote, i.e., it is relatively slow in neutral aqueous solutions, and H 2 OCbl forms complexes with biological ligands and proteins , that leads to inhibition of the CN – binding. In contrast to H 2 OCbl, cobinamides (Cbis), nucleotide-free derivatives of Cbls, react with CN – significantly more rapidly, and some Cbi species retain this reactivity in the presence of competitive ligands. , Moreover, Cbis possesses higher water solubility and can be introduced via intramuscular injection .…”

Section: Introductionmentioning

confidence: 99%

High Reactivity of Supermolecular Nanoentities of a Vitamin B₁₂ Derivative in Langmuir–Schaefer Films Toward Gaseous Toxins

Dereven’kov,

Maiorova,

Koifman

et al. 2023

Langmuir

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“…3). Очевидно, этот эффект связан с наличием в альбумине групп, способных восстанавливаться и образовывать соединение, взаимодействующее с селенитом; таковыми могут быть присутствующие в БСА цистиновые фрагменты [18]. Были проведены опыты по восстановлению селенита гидроксиметансульфинатом в присутствии L-цистина и его селеносодержащего аналогаселено-L-цистина.…”

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Influence of Proteins on the Interaction Between Sodium Selenite and Sulfur-Containing Reductants

2022

IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENII KHIMIYA KHIMICHESKAYA TE

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Изучено влияние белков -бычьего сывороточного альбумина (БСА) и трипсина из поджелудочной железы свиньи -на взаимодействие селенита натрия с гидроксиметансульфинатом (ГМС) натрия и диоксидом тиомочевины (ДОТМ) в водных растворах различной кислотности. Установлено, что в присутствии трипсина и особенно бычьего сывороточного альбумина количество наноселена с малыми размерами частиц (около 100 нм), образующееся при взаимодействии селенита и ГМС в нейтральных и слабокислых средах, значительно больше, чем в отсутствие белков, а селен с размерами частиц более 150 нм практически отсутствует; наблюдается также уменьшение индукционного периода при образовании селена -этот эффект обусловлен наличием в белках цистиновых фрагментов, образующих при взаимодействии с ГМС цистеин, восстанавливающий селенит. Аналогичный эффект на индукционный период оказывают добавки цистина и особенно селеноцистина, не влияющие, однако, на размеры частиц образующегося наноселена. В щелочных средах гидроксиметансульфинат натрия не восстанавливает селенит, введение БСА не приводит к образованию селена. В этих средах селенит реагирует с диоксидом тиомочевины, однако введение бычьего сывороточного альбумина и трипсина не влияет на взаимодействие ДОТМ-селенит. Очевидно, влияние дополнительно образовавшегося цистеина на возникновение селена очень мало, т.к. диоксид тиомочевины является очень сильным восстановителем в щелочных средах и его взаимодействие с селенитом протекает с высокими скоростями. Реакция селенита с диоксидом тиомочевины в слабокислых и нейтральных растворах при комнатной температуре не протекает, добавление белков не приводит к образованию селена.

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Characterization of the complex between native and reduced bovine serum albumin with aquacobalamin and evidence of dual tetrapyrrole binding

Cited by 10 publications

References 63 publications

Elevated Plasma Vitamin B12 in Patients with Hepatic Glycogen Storage Diseases

Elevated Plasma Vitamin B12 in Patients with Hepatic Glycogen Storage Diseases

High Reactivity of Supermolecular Nanoentities of a Vitamin B₁₂ Derivative in Langmuir–Schaefer Films Toward Gaseous Toxins

Influence of Proteins on the Interaction Between Sodium Selenite and Sulfur-Containing Reductants

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Characterization of the complex between native and reduced bovine serum albumin with aquacobalamin and evidence of dual tetrapyrrole binding

Cited by 10 publications

References 63 publications

Elevated Plasma Vitamin B12 in Patients with Hepatic Glycogen Storage Diseases

Elevated Plasma Vitamin B12 in Patients with Hepatic Glycogen Storage Diseases

High Reactivity of Supermolecular Nanoentities of a Vitamin B12 Derivative in Langmuir–Schaefer Films Toward Gaseous Toxins

Influence of Proteins on the Interaction Between Sodium Selenite and Sulfur-Containing Reductants

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High Reactivity of Supermolecular Nanoentities of a Vitamin B₁₂ Derivative in Langmuir–Schaefer Films Toward Gaseous Toxins