Alpha-1 antitrypsin deficiency: clarifying the role of the putative protective threshold

Assessment and monitoring of lung disease in patients with severe alpha 1 antitrypsin deficiency: a european delphi consensus of the EARCO group

BACKGROUND

Currently, there is conflicting information and guidance on the effective management of Alpha 1 Antitrypsin Deficiency (AATD). Establishing a consensus of assessment and disease management specific to AATD is important for achieving a standardized treatment pathway and for improving patient outcomes. Here, we aim to utilize the Delphi method to establish a European consensus for the assessment and management of patients with severe AATD.

METHODS

Two rounds of a Delphi survey were completed online by members of the European Alpha-1 Research Collaboration (EARCO). Respondents were asked to indicate their agreement with proposed statements for patients with no respiratory symptoms, stable respiratory disease, and worsening respiratory disease using a Likert scale of 1-7. Levels of agreement between respondents were calculated using a weighted average.

RESULTS

Round 1 of the Delphi survey was sent to 103 members of EARCO and 38/103 (36.9%) pulmonologists from across 15 countries completed all 109 questions. Round 2 was sent to all who completed Round 1 and 36/38 (94.7%) completed all 79 questions. Responses regarding spirometry, body plethysmography, high-resolution computed tomography, and the initiation of augmentation therapy showed little variability among physicians, but there was discordance among other aspects, such as the use of low-dose computed tomography in both a research setting and routine clinical care.

CONCLUSIONS

These results provide expert opinions for the assessment and monitoring of patients with severe AATD, which could be used to provide updated recommendations and standardized treatment pathways for patients across Europe.

Augmentation Therapy for Severe Alpha-1 Antitrypsin Deficiency Improves Survival and Is Decoupled from Spirometric Decline-A Multinational Registry Analysis

Rationale: Intravenous plasma-purified alpha-1 antitrypsin (IV-AAT) has been used as therapy for alpha-1 antitrypsin deficiency (AATD) since 1987. Previous trials (RAPID and RAPID-OLE) demonstrated efficacy in preserving computed tomography of lung density but no effect on FEV1. This observational study evaluated 615 people with severe AATD from three countries with socialized health care (Ireland, Switzerland, and Austria), where access to standard medical care was equal but access to IV-AAT was not. Objectives: To assess the real-world longitudinal effects of IV-AAT. Methods: Pulmonary function and mortality data were utilized to perform longitudinal analyses on registry participants with severe AATD. Measurements and Main Results: IV-AAT confers a survival benefit in severe AATD (P < 0.001). We uncovered two distinct AATD phenotypes based on an initial respiratory diagnosis: lung index and non-lung index. Lung indexes demonstrated a more rapid FEV1 decline between the ages of 20 and 50 and subsequently entered a plateau phase of minimal decline from 50 onward. Consequentially, IV-AAT had no effect on FEV1 decline, except in patients with a Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage 2 lung index. Conclusions: This real-world study demonstrates a survival advantage from IV-AAT. This improved survival is largely decoupled from FEV1 decline. The observation that patients with severe AATD fall into two major phenotypes has implications for clinical trial design where FEV1 is a primary endpoint. Recruits into trials are typically older lung indexes entering the plateau phase and, therefore, unlikely to show spirometric benefits. IV-AAT attenuates spirometric decline in lung indexes in GOLD stage 2, a spirometric group commonly outside current IV-AAT commencement recommendations.

Alpha1-antitrypsin deficiency: An updated review

Alpha1-antitrypsin deficiency (AATD) is a rare autosomal recessive disease associated with the homozygous Z variant of the SERPINA1 gene. Clinical expression of AATD, reported 60 years ago associate a severe deficiency, pulmonary emphysema and/or liver fibrosis. Pulmonary emphysema is due to the severe alpha1-antitrypsin deficiency of the ZZ homozygous status and is favored by smoking. Liver fibrosis is due to the ZZ homozygous status and is favored by obesity and excessive chronic alcohol intake, with a risk of liver cancer. Diagnosis is based on serum level and either isoelectric focusing determination of the biochemical phenotype or PCR detection of some variants. SERPINA1 gene sequencing is necessary in case of discrepancies between the results of these tests. No treatment is available for the liver disease in AATD. Although no specific trial has been performed, COPD in AATD should be treated as per COPD recommendations. Based on a randomized clinical trial, augmentation therapy is indicated in non-smoking adults less than 70 years of age with emphysema at chest CT, confirmed homozygous AATD, and FEV1 between 35% and 70% of predicted. In contrast Z heterozygosis (MZ or SZ) brings a risk of lung or liver disease only in association with further risk factors. Early detection, in all patients with COPD and chronic liver disease, is critical for the correct information of Z variant carriers. News ways of correcting the liver production of alpha1-antitrypsin will modify the care of AATD patients.

[Results of the Implementation of a Case-Finding Program for Alpha-1 Antitrypsin Deficiency in COPD Patients]

Objectives

Currently, the identification of new cases of alpha-1 antitrypsin deficiency (AATD) continues to be one of the great challenges facing the disease. The present study aims to perform an analysis of the results of the implementation of a systematic case detection program of AATD for patients with chronic obstructive pulmonary disease.

Material and methods

Cross-sectional observational study in which the results of AAT screening until December 2022 were analyzed. The cases studied were divided into three periods: (1) no systematic case detection until 2013; (2) systematic case detection of S and Z alleles for cases with AAT < 90 mg/dL until 2018, and (3) systematic case detection of 14 mutations for cases with AAT < 120 mg/dL since 2018.

Results

A total of 471 cases were studied, of which 306 (65.0%) were carriers of some mutation related to HAD. The number of detected cases of all mutations with their percentage against those studied in each period was respectively: 6 (100%), 48 (88.8%) and 253 (61.5%). If we limit to severe mutations (AAT < 57.2 mg/dL), the distribution by periods was respectively: 3 (50.0), 10 (18.5%) and 17 (4.1%).

Conclusions

The present study describes the changes in the detection of patients carrying DAAT-related alleles with three different case identification policies. The data support the use of systematic case detection system in the COPD patient population.

Alpha-1 Antitrypsin Therapy Modifies Neutrophil Adhesion in Patients with Obstructive Lung Disease

Alpha-1 antitrypsin (AAT) deficiency (AATD) is characterized by neutrophil-dominated inflammation resulting in emphysema. The cholesterol-rich neutrophil outer plasma membrane plays a central role in adhesion and subsequent transmigration to underlying tissues. This study aimed to investigate mechanisms of increased neutrophil adhesion in AATD, and whether AAT augmentation therapy abrogates this effect. Plasma and blood neutrophils were donated by healthy controls (n=20), AATD (n=30) and AATD patients post AAT augmentation therapy (n=6). Neutrophil membrane protein expression was investigated using liquid chromatography-tandem mass spectrometry. The effect of once weekly intravenous AAT augmentation therapy was assessed by ELISAs, and calcium fluorometric, μ-calpain and cell adhesion assays. Decreased neutrophil plasma membrane cholesterol content (P=0.03), yet increased abundance of integrin alpha-M (fold change 1.91), integrin alpha-L (fold change 3.76) and cytoskeletal adaptor proteins including talin-1 (fold change 4.04), were detected on AATD neutrophil plasma membrane fractions. The described inflammatory induced structural changes were a result of >2 fold increased cytosolic calcium levels (P=0.02), leading to significant calcium dependent μ-calpain activity (3.5 fold change, P=0.005), resulting in proteolysis of the membrane cholesterol trafficking protein caveolin-1. Treatment of AAT-deficient individuals with AAT augmentation therapy resulted in increased caveolin-1 and membrane cholesterol content (111.8 ± 15.5 vs 64.18 ± 7.8 µg/ 2x10⁷ cells pre- and post-treatment respectively, P=0.02), with concurrent decreased neutrophil integrin expression and adhesion. Results demonstrate an auxiliary benefit of AAT augmentation therapy, evident by a decrease in circulating inflammation and controlled neutrophil adhesion.

Recent advancements in understanding the genetic involvement of alpha-1 antitrypsin deficiency associated lung disease: a look at future precision medicine approaches

INTRODUCTION

Alpha-1 antitrypsin deficiency occurs in individuals with deleterious genetic mutations on both chromosomes (maternal and paternal) in SERPINA1, the gene encoding the alpha-1 antitrypsin protein. There has been substantial progress in understanding the genetic variation that underlies the heterogeneous penetrance of lung disease in alpha-1 antitrypsin deficiency.

AREAS COVERED

This review will cover SERPINA1 gene structure and genetic variation, population genetics, genome-wide genetic modifiers of lung disease, alternative mechanisms of disease, and emerging therapeutics - including gene and cell therapy - related to alpha-1 antitrypsin deficiency-associated lung disease.

EXPERT OPINION

There remains ample opportunity to employ precision medicine in the diagnosis, prognosis, and therapy of alpha-1 antitrypsin deficiency-associated lung disease. In particular, a genome-wide association study and subsequent polygenic risk score is an important first step in identifying genome-wide genetic modifiers contributing to the variability of lung disease in severe alpha-1 antitrypsin deficiency.

Sensitive and specific measurement of alpha1-antitrypsin activity with an elastase complex formation immunosorbent assay (ECFISA)

Functionally active alpha₁-antitrypsin (AAT) is measured predominantly with a chromogenic elastase inhibition assay, where the concentration of AAT activity inversely correlates with the levels of residual elastase. This standard assay has moderate sensitivity as it hardly allows the measurement of samples containing less than 10 µg of functionally active AAT per mL. To overcome this drawback, we developed a new assay format for the measurement of functionally active AAT, which we termed the elastase complex formation immunosorbent assay (ECFISA). The ECFISA uses plate-bound, still proteolytically active elastase, which attacks functionally active AAT under irreversible formation of a stable stochiometric 1 + 1 complex. This complex is then detected and measured by an anti-AAT peroxidase conjugate. Using three different approaches for the preparation of functionally inactive AAT - heating, oxidation, and complex formation with elastase - we confirmed beyond doubt that the ECFISA exclusively measures functionally active AAT and that these measurements are unimpaired by the presence of high concentrations of functionally inactive AAT. Studies addressing the coating procedure demonstrated that adequate and robust conditions had been defined for this essential first step of the ECFISA. Possible interference caused by the presence of important plasma proteinase inhibitors in the test samples could be excluded for the most abundant inhibitors. Even a 1.5-times molar excess of alpha₂-macroglobulin over AAT was shown to have no impact, which is not the case for a conventional chromogenic activity assay. Functional activities determined with the ECFISA and validated chromogenic elastase inhibition assay matched well with a mean absolute bias of 0.64% calculated for the 25 samples measured. The results of the bioanalytical assay validation complied with the acceptance criteria for ligand-binding assays as given by current guidelines on validation of bioanalytical methods. Overall, the data obtained demonstrated the ECFISA as an accurate, precise, selective, and very sensitive method for AAT activity measurement at low levels previously inaccessible for direct measurement.

Alpha1-antitrypsin deficiency: New therapies on the horizon

Alpha1-antitrypsin deficiency (AATD) is caused by mutations in the SERPINA1 gene, coding for alpha1-antitrypsin (AAT). AAT is synthesised mainly in the liver and is released into bloodstream to protect tissues (particularly lung) with its antiprotease activity. The homozygous Pi∗Z mutation (Pi∗ZZ genotype) is the predominant cause of severe AATD. It interferes with AAT secretion thereby leading to AAT accumulation in the liver and lack of AAT in the circulation and the lung. Accordingly, Pi∗ZZ individuals are strongly predisposed to lung and liver injury. The former is treated by a weekly AAT augmentation therapy, but not medicinal products exist for the liver. Our review summarises the current approaches silencing AAT production, improving protein folding and secretion or promoting AAT degradation.