These results indicate that coronary perivascular fibrosis is associated with the impairment of coronary blood flow although not associated with interstitial fibrosis or cardiac function, suggesting that it can be a new therapeutic target to improve coronary microcirculation.
Pulmonary veno-occlusive disease (PVOD) is a rare form of pulmonary hypertension which occurs in 0.1-0.2 people per million. Its etiology is still poorly understood but is related to several risk factors. The histopathology of PVOD is characterized by intimal fibrosis narrowing or the occlusion of small pulmonary veins or venules. A definitive diagnosis requires a surgical biopsy, which is a risky procedure. Thus, the diagnosis must be based on high clinical suspicion and the results of various diagnostic tests, mainly high-resolution computed tomography, pulmonary function tests, bronchoalveolar lavage, and right heart catheterization. The definitive treatment is limited to lung transplantation. Several pulmonary arterial hypertension-specific agents may cause pulmonary edema in PVOD. However, the cautious use of such medications in selected patients, and surgical or mechanical supports, may successfully bridge patients to transplantation. Given the scant knowledge regarding this entity, future studies with a focus on elucidating the etiology and establishing the optimal treatment are required, as is further development in diagnosis.
The underlying mechanisms of ventricular remodeling after myocardial infarction (MI) remain largely unknown. In this study, we performed an integrative analysis of spatial transcriptomics and single-nucleus RNA sequencing (snRNA-seq) in a murine MI model and found that mechanical stress-response genes are expressed at the border zone and play a critical role in left ventricular remodeling after MI. An integrative analysis of snRNA-seq and spatial transcriptome of the heart tissue after MI identified the unique cluster that appeared at the border zone in an early stage, highly expressing mechano-sensing genes, such as Csrp3. AAV9-mediated gene silencing and overexpression of Csrp3 demonstrated that upregulation of Csrp3 plays critical roles in preventing cardiac remodeling after MI by regulation of genes associated with mechano-sensing. Overall, our study not only provides an insight into spatiotemporal molecular changes after MI but also highlights that the mechano-sensing genes at the border zone act as adaptive regulators of left ventricular remodeling.
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