Cystatin C

Cystatin C
Cystatin C

PDB rendering based on 1r4c.
Symbols CST3; ARMD11; MGC117328
External IDs OMIM604312 MGI102519 HomoloGene78 GeneCards: CST3 Gene
RNA expression pattern
PBB GE CST3 201360 at tn.png
More reference expression data
Species Human Mouse
Entrez 1471 13010
Ensembl ENSG00000101439 ENSMUSG00000027447
UniProt P01034 Q3U5K7
RefSeq (mRNA) NM_000099.2 NM_009976.3
RefSeq (protein) NP_000090.1 NP_034106.2
Location (UCSC) Chr 20:
23.61 – 23.62 Mb
Chr 2:
148.7 – 148.7 Mb
PubMed search [1] [2]

Cystatin C or cystatin 3 (formerly gamma trace, post-gamma-globulin or neuroendocrine basic polypeptide),[1] a protein encoded by the CST3 gene, is mainly used as a biomarker of kidney function. Recently, it has been studied for its role in predicting new-onset or deteriorating cardiovascular disease. It also seems to play a role in brain disorders involving amyloid (a specific type of protein deposition), such as Alzheimer's disease.

In humans, all cells with a nucleus (cell core containing the DNA) produce cystatin C as a chain of 120 amino acids. It is found in virtually all tissues and bodily fluids. It is a potent inhibitor of lysosomal proteinases (enzymes from a special subunit of the cell that break down proteins) and probably one of the most important extracellular inhibitors of cysteine proteases (it prevents the breakdown of proteins outside the cell by a specific type of protein degrading enzymes). Cystatin C belongs to the type 2 cystatin gene family.


Role in medicine

Kidney function

Glomerular filtration rate (GFR), a marker of kidney health, is best measured by injecting compounds such as inulin, radioisotopes such as 51chromium-EDTA, 125I-iothalamate, 99mTc-DTPA or radiocontrast agents such as iohexol, but these techniques are complicated, costly, time-consuming and have potential side-effects.[2][3] Creatinine is the most widely used biomarker of kidney function. It is inaccurate at detecting mild renal impairment, and levels can vary with muscle mass and protein intake.[4] Formulas such as the Cockcroft and Gault formula and the MDRD formula (see Renal function) try to adjust for these variables.

Cystatin C has a low molecular weight (approximately 13.3 kilodaltons), and it is removed from the bloodstream by glomerular filtration in the kidneys. If kidney function and glomerular filtration rate decline, the blood levels of cystatin C rise. Serum levels of cystatin C are a more precise test of kidney function (as represented by the glomerular filtration rate, GFR) than serum creatinine levels.[3][5] This finding is based mainly on cross-sectional studies (on a single point in time). Longitudinal studies (that follow cystatin C over time) are scarcer; some studies show promising results.[6][7][8] Cystatin C levels are less dependent on age, sex, race and muscle mass compared to creatinine. Cystatin C measurements alone have not been shown to be superior to formula-adjusted estimations of kidney function.[9] As opposed to previous claims, cystatin C has been found to be influenced by body composition.[10][11] It has been suggested that cystatin C might predict the risk of developing chronic kidney disease, thereby signaling a state of 'preclinical' kidney dysfunction.[12]

Studies have also investigated cystatin C as a marker of kidney function in the adjustment of medication dosages.[13][14]

Cystatin C levels have been reported to be altered in patients with cancer,[15][16][17] (even subtle) thyroid dysfunction[18][19][20] and glucocorticoid therapy in some[21][22] but not all[23] situations. Other reports have found that levels are influenced by cigarette smoking and levels of C-reactive protein.[24] Levels seem to be increased in HIV infection, which might or might not reflect actual renal dysfunction.[25][26][27] The role of cystatin C to monitor GFR during pregnancy remains controversial.[28][29] Like creatinine, the elimination of cystatin C via routes other than the kidney increase with worsening GFR.[30]

Death and cardiovascular disease

Kidney dysfunction increases the risk of death and cardiovascular disease.[31][32] Several studies have found that increased levels of cystatin C are associated with the risk of death, several types of cardiovascular disease (including myocardial infarction, stroke, heart failure, peripheral arterial disease and metabolic syndrome) and healthy aging. Some studies have found cystatin C to be better in this regard than serum creatinine or creatinine-based GFR equations.[33][34][35][36][37][38][39][40][41][42][43][44] Because the association of cystatin C with long term outcomes has appeared stronger than what could be expected for GFR, it has been hypothesized that cystatin C might also be linked to mortality in a way independent of kidney function.[45] In keeping with its housekeeping gene properties, it has been suggested that cystatin C might be influenced by the basal metabolic rate.[46]

Neurologic disorders

Mutations in the cystatin 3 gene are responsible for the Icelandic type of hereditary cerebral amyloid angiopathy, a condition predisposing to intracerebral haemorrhage, stroke and dementia.[47][48] The condition is inherited in a dominant fashion.

Since cystatin 3 also binds amyloid β and reduces its aggregation and deposition, it is a potential target in Alzheimer's disease.[49][50] Although not all studies have confirmed this, the overall evidence is in favor of are role for CST3 as a susceptibility gene for Alzheimer's disease.[51] Cystatin C levels have been reported to be higher in subjects with Alzheimer's disease.[52]

The role of cystatin C in multiple sclerosis and other demyelinating diseases (characterized by a loss of the myelin nerve sheath) remains controversial.[53]

Other roles

Cystatin C levels are decreased in atherosclerotic (so-called 'hardening' of the arteries) and aneurysmal (saccular bulging) lesions of the aorta.[54][55][56][57] Genetic and prognostic studies also suggest a role for cystatin C.[58][59] Breakdown of parts of the vessel wall in these conditions is thought to result from an imbalance between proteinases (cysteine proteases and matrix metalloproteinases, increased) and their inhibitors (such as cystatin C, decreased).

A few studies have looked at the role of cystatin C or the CST3 gene in age-related macular degeneration.[60][61] Cystatin C has also been investigated as a prognostic marker in several forms of cancer.[62][63] Its role in pre-eclampsia remains to be confirmed.[64][65][66][67]

Laboratory measurement

Cystatin C can be measured in a random sample of serum (the fluid in blood from which the red blood cells and clotting factors have been removed) using immunoassays such as nephelometry or particle-enhanced turbidimetry.[68] It is a more expensive test than serum creatinine (around $2 or $3, compared to $0.02 to $0.15), which can be measured with a Jaffé reaction.[69][70][71]

Reference values differ in many populations and with sex and age. Across different studies, the mean reference interval (as defined by the 5th and 95th percentile) was between 0.52 and 0.98 mg/L. For women, the average reference interval is 0.52 to 0.90 mg/L with a mean of 0.71 mg/L. For men, the average reference interval is 0.56 to 0.98 mg/L with a mean of 0.77 mg/L.[68] The normal values decrease until the first year of life, remaining relatively stable before they increase again, especially beyond age 50.[72][73][74] Creatinine levels increase until puberty and differ according to gender from then on, making their interpretation problematic for pediatric patients.[73][75]

In a large study from the United States National Health and Nutrition Examination Survey, the reference interval (as defined by the 1st and 99th percentile) was between 0.57 and 1.12 mg/L. This interval was 0.55 - 1.18 for women and 0.60 - 1.11 for men. Non-Hispanic blacks and Mexican Americans had lower normal cystatin C levels.[72] Other studies have found that in patients with an impaired renal function, women have lower and blacks have higher cystatin C levels for the same GFR.[9] For example, the cut-off values of cystatin C for chronic kidney disease for a 60-year-old white women would be 1.12 mg/L and 1.27 mg/L in a black man (a 13% increase). For serum creatinine values adjusted with the MDRD equation, these values would be 0.95 mg/dL to 1.46 mg/dL (a 54% increase).[76]

Based on a threshold level of 1.09 mg/L (the 99th percentile in a population of 20 to 39-year-olds without hypertension, diabetes, microalbuminuria or macroalbuminuria or higher than stage 3 chronic kidney disease), the prevalence of increased levels of cystatin C in the United States was 9.6% in subjects of normal weight, increasing in overweight and obese individuals.[77] In Americans aged 60 and 80 and older, serum cystatin is increased in 41% and more than 50%.[72]

Molecular biology

The cystatin superfamily encompasses proteins that contain multiple cystatin-like sequences. Some of the members are active cysteine protease inhibitors, while others have lost or perhaps never acquired this inhibitory activity. There are three inhibitory families in the superfamily, including the type 1 cystatins (stefins), type 2 cystatins and the kininogens. The type 2 cystatin proteins are a class of cysteine proteinase inhibitors found in a variety of human fluids and secretions, where they appear to provide protective functions. The cystatin locus on the short arm of chromosome 20 contains the majority of the type 2 cystatin genes and pseudogenes.

The CST3 gene is located in the cystatin locus and comprises 3 exons (coding regions, as opposed to introns, non-coding regions within a gene), spanning 4.3 kilo-base pairs. It encodes the most abundant extracellular inhibitor of cysteine proteases. It is found in high concentrations in biological fluids and is expressed in virtually all organs of the body (CST3 is a housekeeping gene). The highest levels are found in semen, followed by breastmilk, tears and saliva. The hydrophobic leader sequence indicates that the protein is normally secreted. There are three polymorphisms in the promoter region of the gene, resulting in two common variants.[78] Several single nucleotide polymorphisms have been associated with altered cystatin C levels.[79]

Cystatin C is a non-glycosylated, basic protein (isoelectric point at pH 9.3). The crystal structure of cystatine C is characterized by a short alpha helix and a long alpha helix running across a large antiparallel, five-stranded beta sheet. Like other type 2 cystatines, it has two disulfide bonds. Around 50% of the molecules carry a hydroxylated proline. Cystatine C forms dimers (molecule pairs) by exchanging subdomains; in the paired state, each half is made up of the long alpha helix and one beta strand of one partner, and four beta strands of the other partner.[80]


Cystatin C was first described as 'gamma-trace' in 1961 as a trace protein together with other ones (such as beta-trace) in the cerebrospinal fluid and in the urine of patients with renal failure.[81] Grubb and Löfberg first reported its amino acid sequence.[81] They noticed it was increased in patients with advanced renal failure.[82] It was first proposed as a measure of glomerular filtration rate by Grubb and coworkers in 1985.[83][84]


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External links

  • The MEROPS online database for peptidases and their inhibitors: I25.004

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