Interstitial lung disease in STING-associated vasculopathy with onset in infancy (SAVI): preliminary genotype-phenotype correlation

Genetic variants involved in the cGAS-STING pathway predict outcome in patients with metastatic colorectal cancer: Data from FIRE-3 and TRIBE trials

BACKGROUND

The activation of stimulator of interferon genes (STING) was reported to enhance cetuximab-mediated natural killer cell activation and dendritic cell maturation. Polymorphisms in genes in the cyclic GMP-AMP synthase (cGAS)-STING pathway may affect innate immune response. Therefore, we hypothesised that genetic variants in the cGAS-STING pathway may predict the efficacy of cetuximab-based treatment in patients with metastatic colorectal cancer.

METHODS

Genomic DNA from blood samples of patients enrolled in FIRE-3 (cetuximab arm, n = 129; bevacizumab arm, n = 107) and TRIBE (bevacizumab arm, n = 215) was genotyped using the OncoArray-500K bead chip panel. Seven selected single nucleotide polymorphisms in 3 genes (cGAS, STING and interferon B1 (IFNB1)) were analysed for the association with overall survival and progression-free survival.

RESULTS

In the cetuximab cohort, patients with STING rs1131769 any T allele showed significantly shorter overall survival (36.3 versus 56.1 months) than carriers of C/C in both univariate [hazard ratio (HR) = 2.08; 95% confidence interval (CI): 1.06-4.07; P = 0.03] and multivariate (HR = 2.98; 95% CI: 1.35-6.6; P = 0.0085) analyses; patients carrying IFNB1 rs1051922 G/A and A/A genotype showed a significantly shorter progression-free survival than carriers of G/G allele in both univariate (G/A versus G/G, 10.2 versus 14.1 months, HR = 1.84; 95% CI 1.23-2.76; A/A versus G/G, 10.7 versus 14.1 months, HR = 2.19; 95% CI 0.97-4.96; P = 0.0077) and multivariate analyses (G/A versus G/G, HR = 2; 95% CI 1.22-3.3; A/A versus G/G, HR = 2.19, 95% CI 0.92-5.26, P = 0.02). These associations were not observed in the bevacizumab arm of FIRE-3 or TRIBE.

CONCLUSION

These results suggest for the first time that germline polymorphisms in STING and IFNB1 genes may predict the outcomes of cetuximab-based treatment in patients with metastatic colorectal cancer.

Pulmonary granulomatosis of genetic origin

Granulomatous inflammation of the lung can be a manifestation of different conditions and can be caused by endogenous inflammation or external triggers. A multitude of different genetic mutations can either predispose patients to infections with granuloma-forming pathogens or cause autoinflammatory disorders, both leading to the phenotype of pulmonary granulomatosis. Based on a detailed patient history, physical examination and a diagnostic approach including laboratory workup, pulmonary function tests (PFTs), computed tomography (CT) scans, bronchoscopy with bronchoalveolar lavage (BAL), lung biopsies and specialised microbiological and immunological diagnostics, a correct diagnosis of an underlying cause of pulmonary granulomatosis of genetic origin can be made and appropriate therapy can be initiated. Depending on the underlying disorder, treatment approaches can include antimicrobial therapy, immunosuppression and even haematopoietic stem cell transplantation (HSCT). Patients with immunodeficiencies and autoinflammatory conditions are at the highest risk of developing pulmonary granulomatosis of genetic origin. Here we provide a review on these disorders and discuss pathogenesis, clinical presentation, diagnostic approach and treatment.

Pulmonary granulomatosis of genetic origin mostly occurs in immunodeficiency disorders and autoinflammatory conditions. In addition to specific approaches in this regard, the diagnostic workup needs to cover environmental and occupational aspects.https://bit.ly/31SqdHW

The Challenge of Diagnosing SAVI: Case Studies

Background: Stimulator of interferon genes (STING)-associated vasculopathy with onset in infancy (SAVI) was first described in 2014 as a type I interferonopathy resulting from heterozygous mutations in the transmembrane protein 173 (TMEM173) gene. SAVI is characterized by the neonatal onset of systemic inflammation, severe cutaneous vasculopathy, and interstitial lung disease. Janus kinase inhibitors are considered effective therapeutics. We sought to describe 2 patients who were diagnosed with SAVI only at postmortem to increase awareness of this disorder. Methods: Clinical data were collected, and Sanger sequencing of the TMEM173 gene was performed in 2 patients suspected of SAVI. This article reviews details of these cases and lessons learned from clinical review and postmortem studies. Results: Two male children shared similar manifestations, including recurrent skin abscesses in winter, skin lesions, and recurrent respiratory tract infections, since birth. Computed tomography of the chest revealed pulmonary fibrosis, but no mutations in relevant genes (including ABCA3 and SFTPC) were discovered in patient 1 (P1). Joint pain was significant in P2 and he was diagnosed with arthritis. Antibiotic treatment yielded little improvement and did not prevent progression. Finally, P1 and P2 died of respiratory and circulatory failure in 2016 and 2012, respectively. In 2018, mutations (P1: c.463G>A, p.V155M; and P2: c.461A>G, p.N154S) in exon 5 of the TMEM173 gene were discovered, confirming the diagnosis of SAVI. Conclusions: The experience with these 2 patients suggests that SAVI should be considered in children with systemic inflammation, chilblain skin lesions, and pulmonary fibrosis, and TMEM173 gene analysis can be beneficial in the diagnosis of SAVI.