Lung function improvements in emphysema following pneumonia.

We describe two cases of patients with emphysema who, in the lead up to hyperinflation intervention, developed pneumonia with significant physiological, anatomical, functional and quality of life improvement observed following. This directly goes against the natural history of both disease processes, demonstrating the benefit resulting from infective autobullectomy.

Rapid whole-genome sequencing for investigation of a suspected tuberculosis outbreak.

Two Southeast Asian students attending the same school in the United Kingdom presented with pulmonary tuberculosis. An epidemiological investigation failed to link the two cases, and drug resistance profiles of the Mycobacterium tuberculosis isolates were discrepant. Whole-genome sequencing of the isolates found them to be genetically identical, suggesting a missed transmission event.

Palovarotene, a novel retinoic acid receptor gamma agonist for the treatment of emphysema.

Emphysema is characterized by the destruction of alveoli and alveolar ducts within the lungs. Retinoid signaling is believed to play a role in alveologenesis, with the retinoic acid receptor gamma thought to be required for alveolar formation. Based on this hypothesis, Roche Holding AG is developing palovarotene (R-667, RO-3300074), a selective retinoic acid receptor gamma agonist for the treatment of emphysema. In small animal studies, palovarotene was claimed to reverse the structural, functional and inflammatory features of cigarette smoke-induced emphysema. Phase I clinical trials of palovarotene in patients with emphysema demonstrated that the drug is well tolerated, with improvements observed in markers of emphysema progression. Unlike all-trans retinoic acid, the pharmacokinetic profile of palovarotene appears to be dose-proportional. At the time of publication, a phase II, placebo-controlled trial was ongoing, and was expected to report prospective measurements of exercise, gas transfer and lung densitometry endpoints. The development of a selective retinoic acid receptor gamma agonist for the treatment of emphysema represents the first of a new class of small-molecule regenerative therapies that may prove useful for the treatment of destructive or age-related lung disease.

Retinoic acid induced alveolar regeneration: critical differences in strain sensitivity.

In emphysema, the lung cannot spontaneously regenerate lost alveolar tissue. Treatment with retinoic acid (RA) in rodent models of emphysema induces alveolar regeneration. However, some animal studies have failed to show regeneration when using different species and strains. We have previously shown that dexamethasone (Dex) treatment of newborn TO outbred strain mice permanently disrupts alveolar development. Later RA treatment restores alveolar architecture to normal. To determine whether this model of alveolar regeneration is strain specific, our protocol was repeated with two new outbred mouse strains. ICR and NIHS mice received Dex from Postnatal Days 4 to P15 (P4- P15). From P46 to P57, mice received RA (2 mg/kg) or vehicle. An additional ICR group received 5x RA (10 mg/kg) from P46 to P57. Control groups received vehicle at both treatment points. All mice were killed at P90 and lung morphology analyzed. Dex-treated ICR and NIHS mice showed increased mean alveolar chord length (Lm) and reduced alveolar surface area (SA) and SA/lung volume (SA/LV) compared with controls. RA-treated NIHS mice showed return of Lm, SA, and SA/LV toward control values, indicating alveolar regeneration. ICR RA group mice did not regenerate, but 5x RA mice showed Lm, SA, and SA/LV values consistent with alveolar regeneration. In conclusion, the Dex-treated mouse model of emphysema is robust and repeatable in different strains. RA-induced alveolar regeneration is not a strain-specific phenomenon. RA dose threshold for inducing alveolar regeneration is higher in ICR mice, suggesting a difference in retinoid pharmacokinetics between strains. These results provide a possible explanation for previous failed studies of RA-induced alveolar regeneration.