RESUMEN
The benefits of large-scale genetic studies for healthcare of the populations studied are well documented, but these genetic studies have traditionally ignored people from some parts of the world, such as South Asia. Here we describe whole genome sequence (WGS) data from 4806 individuals recruited from the healthcare delivery systems of Pakistan, India and Bangladesh, combined with WGS from 927 individuals from isolated South Asian populations. We characterize population structure in South Asia and describe a genotyping array (SARGAM) and imputation reference panel that are optimized for South Asian genomes. We find evidence for high rates of reproductive isolation, endogamy and consanguinity that vary across the subcontinent and that lead to levels of rare homozygotes that reach 100 times that seen in outbred populations. Founder effects increase the power to associate functional variants with disease processes and make South Asia a uniquely powerful place for population-scale genetic studies.
Asunto(s)
Pueblo Asiatico , Efecto Fundador , Humanos , Pueblo Asiatico/genética , Bangladesh , Homocigoto , India , Pakistán , Personas del Sur de AsiaRESUMEN
ßA3/A1-crystallin, a lens protein that is also expressed in astrocytes, is produced as ßA3 and ßA1-crystallin isoforms by leaky ribosomal scanning. In a previous human proteome high-throughput array, we found that ßA3/A1-crystallin interacts with protein tyrosine phosphatase 1B (PTP1B), a key regulator of glucose metabolism. This prompted us to explore possible roles of ßA3/A1-crystallin in metabolism of retinal astrocytes. We found that ßA1-crystallin acts as an uncompetitive inhibitor of PTP1B, but ßA3-crystallin does not. Loss of ßA1-crystallin in astrocytes triggers metabolic abnormalities and inflammation. In CRISPR/cas9 gene-edited ßA1-knockdown (KD) mice, but not in ßA3-knockout (KO) mice, the streptozotocin (STZ)-induced diabetic retinopathy (DR)-like phenotype is exacerbated. Here, we have identified ßA1-crystallin as a regulator of PTP1B; loss of this regulation may be a new mechanism by which astrocytes contribute to DR. Interestingly, proliferative diabetic retinopathy (PDR) patients showed reduced ßA1-crystallin and higher levels of PTP1B in the vitreous humor.