Albumin in Chronic Liver Disease: Structure, Functions and Therapeutic Implications

Bibliographic info

  • Authors: Rosaria Spinella, Rohit Sawhney, Rajiv Jalan
  • Journal: Hepatology International, 2016 (published online September 2015; Asian Pacific Association for the Study of the Liver)
  • Institution: University College London / Royal Free Hospital, UK (Jalan group — UCL Liver Failure Group)

Key question (review scope)

What are the structural, functional, and therapeutic implications of albumin abnormalities in chronic liver disease?

Content summary

HSA structure (review)

  • 585 aa; three domains (I, II, III); 34 disulfide bonds; Cys34 = only free thiol
  • Synthesized by hepatocytes; ~10–15 g/day; half-life 16–20 days
  • Flexible structure enabling binding of diverse ligands (fatty acids, bilirubin, drugs, metals, hormones)

Key non-oncotic functions reviewed

FunctionMechanismClinical relevance in CLD
AntioxidantCys34 thiol scavenges ROS/RNS; binds free metals (Cu, Fe) at N-terminus; inhibits lipid peroxidationHNA1/HNA2 rise = antioxidant capacity lost
Drug/toxin bindingTwo Sudlow sites (I: bilirubin/warfarin; II: benzodiazepines/fatty acids); N-terminal metal bindingImpaired in cirrhosis → drug toxicity ↑
ImmunomodulationBinds and neutralizes bacterial endotoxin; inhibits complement activation; modulates neutrophil functionReduced in CLD → immune dysfunction
Endothelial stabilizationDirect interaction with endothelial cells → preserves vascular permeability; reduces capillary leakLoss → ascites, edema
Oncotic/volumeHigh MW; negative chargeReduced in cirrhosis → ascites formation

Structural changes in CLD

  • HNA1 (reversible oxidation): increases in CLD; related to oxidative stress
  • HNA2 (irreversible oxidation): elevated, correlates with severity; non-recoverable
  • Glycation: non-enzymatic, usually modest in CLD (see biphasic pattern)
  • Truncations (N/C-terminal)
  • Concept of “effective albumin”: fraction with intact structure and function — introduced here as a key concept for CLD management
  • Jalan et al. (2009): EPR spectroscopy shows reduced fatty acid binding in decompensated cirrhosis → seminal EPR paper

Therapeutic implications

  • Albumin infusion indications: SBP, large-volume paracentesis, hepatorenal syndrome — established
  • Beyond volume expansion: immunomodulatory, antioxidant, endothelial effects of functional albumin
  • TARGET study and ATTIRE study concept (at time of writing): long-term albumin infusion to maintain serum albumin >30–35 g/L
  • Distinction between albumin as volume expander (oncotic) vs multi-functional therapeutic (non-oncotic)

Clinical context

  • Disease: Liver fibrosis / cirrhosis (compensated and decompensated)
  • Implication: A single molecule (albumin) serves as both a biomarker (measuring structural damage) and a therapeutic target (restoring functional capacity)

Connections

  • HSA — comprehensive functional and structural reference
  • Oxidation — HNA1/HNA2 clinical significance reviewed
  • Liver fibrosis — CLD context throughout
  • domenicali-2014 — seminal paper cited for isoform profiling and native HSA as survival predictor
  • baldassarre-2021-ealb — effective albumin concept operationalized 5 years later; this review previews it
  • naldi-2017-review — complementary analytical-focused review (same year, different focus)
  • fernandez-2019 — albumin therapy RCT testing the non-oncotic effects hypothesized here
  • bernardi-2023 — effective albumin paradigm perspective article from Bologna group senior author

Take home notes

  • This is the Jalan group’s (UCL) perspective on albumin in CLD — important because Jalan is one of the main champions of long-term albumin infusion as a disease-modifying therapy (PILOT/TARGET/ATTIRE studies).
  • The review articulates the “effective albumin” concept clearly before it was operationalized by baldassarre-2021-ealb — shows that the concept was in the air across multiple European groups simultaneously.
  • The endothelial stabilization function of albumin is underappreciated — loss of this function could contribute to the capillary leak and ascites formation in advanced cirrhosis independently of low oncotic pressure.
  • For ALBOM context: Spinella/Jalan reinforce that albumin measurement by concentration alone is insufficient. This provides the clinical justification for why an isoform-based approach (ALBOM) is superior.