Abstract
Pangolin (Mains javanica) is an interesting endangered mammal with special morphological characteristics. Here, we applied proteomics and transcriptomics to explore the differentiation of pangolin skin appendages at two developmental stages and to compare gene expression profiles between abdomen hair and dorsal scale tissues. We identified 4,311 genes and 91 proteins differentially expressed between scale-type and hair-type tissue, of which 6 genes were shared by the transcriptome and proteome. Differentiation altered the abundance of hundreds of proteins and mRNA in the two types of skin appendages, many of which are involved in keratinocyte differentiation, epidermal cell differentiation, and multicellular organism development based on GO enrichment analysis, and FoxO, MAPK, and p53 signalling pathways based on KEGG enrichment analysis. DEGs in scale-type tissues were also significantly enriched in immune-related terms and pathways compared with that in hair-type tissues. Thus, we propose that pangolins have a normal skin innate immune system. Compared with the abdomen, the back skin of pangolins had more genes involved in the regulation of immune function, which may be an adaptive adjustment for the vulnerability of scaly skin to infection and injury. This investigation provides a scientific basis for the study of development and immunity of pangolin skin, which may be helpful in the protection of wild pangolin in China.
Highlights
Pangolin (Mains javanica) is an interesting endangered mammal with special morphological characteristics
We applied transcriptome and proteome analysis of a pangolin species to explore the genetic basis of the development and differentiation of skin appendages
We have shown that the skin of pangolins has a healthy immune function
Summary
Pangolin (Mains javanica) is an interesting endangered mammal with special morphological characteristics. The back skin of pangolins had more genes involved in the regulation of immune function, which may be an adaptive adjustment for the vulnerability of scaly skin to infection and injury This investigation provides a scientific basis for the study of development and immunity of pangolin skin, which may be helpful in the protection of wild pangolin in China. The skin is the largest organ of the body, strategically located at the barrier between the interior and e xterior[1] It performs important physiological functions and is widely involved in life processes including growth and development, defence and protection, and tumorigenesis[2]. The abovementioned studies primarily focused on mammalian hair, little is known about changes in gene expression during scale differentiation This investigation provides a scientific basis for the study of the development and differentiation of pangolin skin and will help protect wild pangolin in China. The results will provide a benchmark for comparative studies of other mammalian hair, including that of humans, and provide important reference information for the prevention of hair, scale, and other diseases
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