Morphoproteomic Features of Pulmonary Influenza A (H1N1) with Therapeutic Implications: A Case Study.

Objective: Influenza pandemic of the human lung was caused by the Influenza A (H1N1) over 100 years ago in 1918, but it recurred in pandemic fashion in 2009. Understanding the pathobiology of this infectious agent in the human lung could lead to adjuvant therapies that are relatively non-toxic and reduce the mortality of the human host. Overall, our objective was to apply morphoproteomics to pulmonary lung sections from an autopsied victim so that we may better define its biology from the perspective of its interaction with the host and provide options for therapeutic targets.
Methods: Morphoproteomic analysis from a case study of this Influenza A (H1N1) pulmonary infection included immunohistochemical probes to detect the expressions of fatty acid synthase (FAS), CD163 ⁺ (M2 polarized monocytes/macrophages), and programmed death-ligand 1 (PD-L1) expression as part of the host response to interaction with the Influenza A (H1N1) virus.
Results: Representative sections of the Influenza A (H1N1) victim's lung showed: cytoplasmic expression of FAS in most of the sloughed and atypical alveolar pneumocytes; abundance of intra-alveolar and alveolar interstitial CD163 ⁺ macrophages/monocytes; and PD-L1 expression on occasional macrophages, and focally on collections of alveolar pneumocytes and the alveolar interstitium.
Conclusion: Morphoproteomics and microanatomical features coincide with the etiopathogenic features of pulmonary Influenza A (H1N1) infection and the host response. This plus data mining of the medical literature suggests that adjunctive, targeted therapy such as metformin and vitamin D3 could address the biology of Influenza A (H1N1) pneumonia, enhance the host immune response, and prevent its progression to a life-threatening, ventilator-dependent clinical situation.
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