Glucosepane
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Glucosepane is a
lysine Lysine (symbol Lys or K) is an α-amino acid that is a precursor to many proteins. It contains an α-amino group (which is in the protonated form under biological conditions), an α-carboxylic acid group (which is in the deprotonated −C ...
-
arginine Arginine is the amino acid with the formula (H2N)(HN)CN(H)(CH2)3CH(NH2)CO2H. The molecule features a guanidino group appended to a standard amino acid framework. At physiological pH, the carboxylic acid is deprotonated (−CO2−) and both the am ...
protein Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, respo ...
cross-link In chemistry and biology a cross-link is a bond or a short sequence of bonds that links one polymer chain to another. These links may take the form of covalent bonds or ionic bonds and the polymers can be either synthetic polymers or natural ...
ing product and
advanced glycation end product Advanced glycation end products (AGEs) are proteins or lipids that become glycated as a result of exposure to sugars. They are a bio-marker implicated in aging and the development, or worsening, of many degenerative diseases, such as diabetes, ath ...
(AGE) derived from D-glucose. It is an irreversible, covalent cross-link product that has been found to make intermolecular and intramolecular cross-links in the
collagen Collagen () is the main structural protein in the extracellular matrix found in the body's various connective tissues. As the main component of connective tissue, it is the most abundant protein in mammals, making up from 25% to 35% of the whole ...
of the
extracellular matrix In biology, the extracellular matrix (ECM), also called intercellular matrix, is a three-dimensional network consisting of extracellular macromolecules and minerals, such as collagen, enzymes, glycoproteins and hydroxyapatite that provide stru ...
(ECM) and
crystallin In anatomy, a crystallin is a water-soluble structural protein found in the lens and the cornea of the eye accounting for the transparency of the structure. It has also been identified in other places such as the heart, and in aggressive breast c ...
of the eyes. Covalent protein cross-links irreversibly link proteins together in the ECM of tissues. Glucosepane is present in human tissues at levels 10 to 1000 times higher than any other cross-linking AGE, and is currently considered to be the most important cross-linking AGE.


Role in aging

Aging leads to progressive loss of elasticity and stiffening of tissues rich in the ECM such as joints, cartilage, arteries, lungs and skin. It has been shown that these effects are brought about by the accumulation of cross-links in the ECM on long-lived proteins. Studies done on glucosepane by the Monnier group have shown that the level of glucosepane cross-links in human collagen in the ECM increases progressively with age and at a more rapid pace in people with diabetes, thus suggesting the role of glucosepane in the long-term effects associated with diabetes and aging such as arteriosclerosis, joint stiffening and skin wrinkling. In fact, they report that in the ECM of the skin of a non-diabetic 90-year-old, glucosepane accounts for about 50 times the protein cross-linking as all other forms of protein cross-linking. Further, the build up of cross-links such as glucosepane within and between proteins is shown to reduce proteolytic degradation in the ECM. This leads to increased cross-link accumulation and is thought to be linked to the thickening of basement membranes in capillaries, glomeruli, lens, and lungs. Atomic-force microscopy experiments identified nanoscale morphologic differences in collagen fibril structures as a function of ageing in skin. A decrease in Young's modulus of the transverse fibril was observed. These changes are thought to be due to the accumulation of glucosepane in tissue. It is proposed that this is due to a change in the fibril density caused by age-related differences in water retention. Computational studies using all-atom simulations revealed that glucosepane results in less tightly held helical structure in the collagen molecule and increase porosity to water. This was confirmed with water content measurement that showed higher content in Achilles and anterior tibias tendon tissue from older individuals compared to young people.


Formation

As an AGE, the reaction pathway that leads to glucosepane formation is known as the
Maillard Reaction The Maillard reaction ( ; ) is a chemical reaction between amino acids and reducing sugars that gives browned food its distinctive flavor. Seared steaks, fried dumplings, cookies and other kinds of biscuits, breads, toasted marshmallows, and man ...
, or non-enzymatic browning. Glucosepane is found to form through a non-oxidative path. The exact mechanism leading to glucosepane has been a challenge for researchers to determine. However, it is currently well characterized up to the ring formation. The formation of glucosepane within connective tissues has been shown to be site-specific. For example, studies using Molecular Dynamics simulations of a complete collagen fibril revealed energetically favourable locations, particularly within the collagen fibril gap-region. This may be due to the lower protein density and higher intra-fibrillar water content within the gap-region.


Overall reaction pathway

The overall pathway of glucosepane formation starts with lysine attacking the reducing sugar D-glucose to form the unstable imine known as a
Schiff base In organic chemistry, a Schiff base (named after Hugo Schiff) is a compound with the general structure ( = alkyl or aryl, but not hydrogen). They can be considered a sub-class of imines, being either secondary ketimines or secondary aldimine ...
, which then rearranges to form the more stable aminoketose
Amadori product The Amadori rearrangement is an organic reaction describing the acid or base catalyzed isomerization or rearrangement reaction of the ''N''-glycoside of an aldose or the glycosylamine to the corresponding 1-amino-1- deoxy- ketose. The reaction i ...
. From there, the stable Amadori Product slowly degrades to form glucosepane through an α-dicarbonyl intermediate.


Mechanism of α-dicarbonyl formation from the Amadori product

The particular reaction path proceeding from the Amadori product to the α-dicarbonyl intermediate that will yield glucosepane was difficult to determine. Initially, researchers hypothesized an α-dicarbonyl intermediate in which the carbonyls were located on C-2 and C-3 of D-Glucose. However, by using glucose with C-1, the carbonyl carbon, marked with the isotope 13C in the reaction, researchers found that the α-dicarbonyl formed has the carbonyls located at C-5 and C-6 of the original glucose backbone. The best mechanism proposed is that the α-dicarbonyl N 6-(2,3-dihydroxy-5,6-dioxohexyl)-L-lysinate, a key intermediate in the glucosepane reaction, forms from the Amadori product through a carbonyl shift all the way down the 6 carbon sugar backbone by
keto-enol tautomerism In organic chemistry, alkenols (shortened to enols) are a type of reactive structure or intermediate in organic chemistry that is represented as an alkene ( olefin) with a hydroxyl group attached to one end of the alkene double bond (). The te ...
and the elimination of the C-4 hydroxyl. Further, evidence was given for the extent of the hypothesized carbonyl shift by using heavy hydrogen in the solvent water, D2O. Researchers found that all the H-C-OH of the carbon backbone were converted to D-C-OH after the reaction, demonstrating that all the hydrogens got transferred out through keto-enol tautomerism, and thus the carbonyl shift went all the way down the backbone, finally eliminating the C-4 hydroxy group.


Ring closure to arginine cross-linking

It is still relatively unclear how the ring is formed and when. One article suggests, and it seems the current belief, that the ring must form in the step after the α-dicarbonyl is formed. The study hypothesized, and another found correlating evidence, that the most likely mechanism of getting from the α-dicarbonyl to glucosepane is through the intramolecular
aldimine In organic chemistry, an imine ( or ) is a functional group or organic compound containing a carbon–nitrogen double bond (). The nitrogen atom can be attached to a hydrogen or an organic group (R). The carbon atom has two additional single bon ...
6-(3,4-dihydroxy-6-oxo-3,4,5,6-tetrahydro-2H-azepinium-1-yl) norleucine. The ring is hypothesized to form by a nucleophilic attack of N on C-6 carbonyl, followed by elimination of a water (2). This then condenses with the arginine side chain to yield glucosepane in nucleophilic addition-elimination reactions of the nitrogens of arginine and the electrophilic carbonyls on the ring, eliminating two waters.


Accumulation

Glycation processes that lead to AGEs particularly affect long-lived proteins in the human body, such as collagen in the skin and crystallin in the eyes. Skin collagen, for instance, has a half-life of fifteen years. Because these proteins do not degrade as quickly as other proteins in the body, the Amadori product, which is stable and thus transforms very slowly, has time enough to convert into glucosepane. It has been estimated that 50-60% of the steady state levels of Amadori product is converted into glucosepane in old age. A suspected reason for the prevalence of the glucosepane cross-link product as opposed to others is that the α−dicarbonyl from which it forms, N 6-(2,3-dihydroxy-5,6-dioxohexyl)-L-lysinate, is a persisting glycating agent because it is irreversibly bound through lysine to a protein. Therefore, it is not easily degraded and thus is more commonly available to form a cross-link with arginine, unlike other cross-link α-dicarbonyl intermediates, which are found bound and free and thus more susceptible to being degraded by enzymes in the ECM.


Prospects for inhibition or removal

Because of the important role glucosepane has been found to play in many pathologies of aging, many researchers have been investigating ways in which the levels of glucosepane could be reduced in tissues. Various methods of doing so have been examined.


α-Dicarbonyl trap

One method attempted to inhibit glucosepane formation is to use an α-dicarbonyl trap molecule,
aminoguanidine Pimagedine, also known as aminoguanidine, is an investigational drug for the treatment of diabetic nephropathy that is no longer under development as a drug. Pimagedine functions as an inhibitor of diamine oxidase and nitric oxide synthase. It act ...
(AG). AG reacts with the α-dicarbonyl intermediate with a higher affinity than arginine, thus blocking the cross-link. While this method has been seen to have some success, it did not greatly interfere with the normal aging of rats.


Thiazolium salts

Another method that has been investigated is the use of
thiazolium salt Thiazole, or 1,3-thiazole, is a heterocyclic compound that contains both sulfur and nitrogen. The term 'thiazole' also refers to a large family of derivatives. Thiazole itself is a pale yellow liquid with a pyridine-like odor and the molecular for ...
s to break the α-dicarbonyl intermediate, therefore cutting off the reaction pathway that leads to glucosepane. These compounds are thought to act as bidentate nucleophiles that attack the adjacent carbonyls in the alpha-dicarbonyl intermediate, which then leads to the cleaving of the C-C bond between the carbonyls. However, an alternate hypothesis as to how they work is that they act as
chelating agents Chelation is a type of bonding of ions and molecules to metal ions. It involves the formation or presence of two or more separate coordinate bonds between a polydentate (multiple bonded) ligand and a single central metal atom. These ligands are ...
. Two thiazolium molecules, PTB (
N-phenacylthiazolium bromide ''N''-Phenacylthiazolium bromide (PTB) is a cross-link breaker that in one study has been shown to prevent vascular advanced glycation end-product Advanced glycation end products (AGEs) are proteins or lipids that become glycated as a result of ...
) and ALT-711, have demonstrated success at reducing glucosepane levels in rats.


ECM turnover

A completely different approach to reducing cross-links that has been proposed is enhancing the ECM turnover processes, which would force the degradation of cross-linked proteins to replace them with new. However, a potential downside to this would be leaky blood vessels resulting from too far enhanced turnover.


See also

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Glycation Glycation (sometimes called non-enzymatic glycosylation) is the covalent attachment of a sugar to a protein or lipid. Typical sugars that participate in glycation are glucose, fructose, and their derivatives. Glycation is the non-enzymatic proces ...
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Glycosylation Glycosylation is the reaction in which a carbohydrate (or ' glycan'), i.e. a glycosyl donor, is attached to a hydroxyl or other functional group of another molecule (a glycosyl acceptor) in order to form a glycoconjugate. In biology (but not al ...
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Advanced glycation end product Advanced glycation end products (AGEs) are proteins or lipids that become glycated as a result of exposure to sugars. They are a bio-marker implicated in aging and the development, or worsening, of many degenerative diseases, such as diabetes, ath ...
*
Maillard Reaction The Maillard reaction ( ; ) is a chemical reaction between amino acids and reducing sugars that gives browned food its distinctive flavor. Seared steaks, fried dumplings, cookies and other kinds of biscuits, breads, toasted marshmallows, and man ...


References

{{reflist, colwidth=35em Post-translational modification