Saahithi Mallapragada
@saahimall.bsky.social
PhD student - Molecular and Cellular Biology Studying developmental lung biology 🧬🫁
https://www.banovichlab.org
https://www.banovichlab.org
When we intersected the results from all three terms (gestational age, life span, and DX score), we found 5 gene - cell type pairs overlapped between gestational age and life span; 2 are shared between gestational age and DX score; and 1 between life span and DX score.
(13/17)
(13/17)
June 6, 2025 at 7:01 PM
When we intersected the results from all three terms (gestational age, life span, and DX score), we found 5 gene - cell type pairs overlapped between gestational age and life span; 2 are shared between gestational age and DX score; and 1 between life span and DX score.
(13/17)
(13/17)
Here, we found 18 gene expression changes associated with gestational age, 25 associated with life span, and 10 genes associated with disease severity (FDR < 0.1).
(12/17)
(12/17)
June 6, 2025 at 7:01 PM
Here, we found 18 gene expression changes associated with gestational age, 25 associated with life span, and 10 genes associated with disease severity (FDR < 0.1).
(12/17)
(12/17)
We then wanted to study the gene expression changes associated with both development and injury. However, every infant born prematurely experiences different levels of neonatal lung injury depending on a variety of factors (exposure to oxygen, mechanical ventilation, steroid treatments, etc).
(9/17)
(9/17)
June 6, 2025 at 6:47 PM
We then wanted to study the gene expression changes associated with both development and injury. However, every infant born prematurely experiences different levels of neonatal lung injury depending on a variety of factors (exposure to oxygen, mechanical ventilation, steroid treatments, etc).
(9/17)
(9/17)
One representative example is TNiche 1, which represents the alveolar niche and is composed of the key alveolar cell types, including AT1, AT2, and capillaries, and we can see that this niche increases in abundance across gestation, consistent with alveologenesis throughout lung development!
(8/17)
(8/17)
June 6, 2025 at 6:46 PM
One representative example is TNiche 1, which represents the alveolar niche and is composed of the key alveolar cell types, including AT1, AT2, and capillaries, and we can see that this niche increases in abundance across gestation, consistent with alveologenesis throughout lung development!
(8/17)
(8/17)
Then, we computationally identified 11 multicellular spatial “niches” using both Seurat v5 and an transcript-based approach developed by Dr. Ruqian Lyu in @davisjmcc.bsky.social’s group (www.biorxiv.org/content/10.1...). Both approaches found generally concordant results.
(7/17)
(7/17)
June 6, 2025 at 6:45 PM
Then, we computationally identified 11 multicellular spatial “niches” using both Seurat v5 and an transcript-based approach developed by Dr. Ruqian Lyu in @davisjmcc.bsky.social’s group (www.biorxiv.org/content/10.1...). Both approaches found generally concordant results.
(7/17)
(7/17)
As an example, we find capillaries and alveolar type 1 (AT1) cells are unlikely to occur next to one another in samples from the early/late canalicular periods; but in samples from the alveolar stage of development and the adult BPD sample, they are more likely to be close to one another.
(6/17)
(6/17)
June 6, 2025 at 6:44 PM
As an example, we find capillaries and alveolar type 1 (AT1) cells are unlikely to occur next to one another in samples from the early/late canalicular periods; but in samples from the alveolar stage of development and the adult BPD sample, they are more likely to be close to one another.
(6/17)
(6/17)
We then defined the cell-cell interactions across development, and to do this, we used cell proximity to quantify the likelihood that cell type pairs were in close proximity to one another within each developmental stage. This creates a map of cell interactions across the developing lung.
(5/17)
(5/17)
June 6, 2025 at 6:42 PM
We then defined the cell-cell interactions across development, and to do this, we used cell proximity to quantify the likelihood that cell type pairs were in close proximity to one another within each developmental stage. This creates a map of cell interactions across the developing lung.
(5/17)
(5/17)
We were able to identify 40 unique cell populations across the 4 lineages, using canonical hallmarks established in previous studies. We noticed differences in cell type proportions as gestational age increased, reflecting different cell-specific patterns as development progressed.
(4/17)
(4/17)
June 6, 2025 at 6:39 PM
We were able to identify 40 unique cell populations across the 4 lineages, using canonical hallmarks established in previous studies. We noticed differences in cell type proportions as gestational age increased, reflecting different cell-specific patterns as development progressed.
(4/17)
(4/17)
With @10xgenomics.bsky.social, we profiled the expression of 343 genes from 17 human infant lung samples across a range of gestational ages and disease pathologies. We generated a ton of data (76 million transcripts in 1.2 million cells) - the largest spatial human neonatal lung dataset yet!
(3/17)
(3/17)
June 6, 2025 at 6:38 PM
With @10xgenomics.bsky.social, we profiled the expression of 343 genes from 17 human infant lung samples across a range of gestational ages and disease pathologies. We generated a ton of data (76 million transcripts in 1.2 million cells) - the largest spatial human neonatal lung dataset yet!
(3/17)
(3/17)