Mittal Aditya
Kusuma School of Biological Sciences, Indian Institute of Technology Delhi (IIT Delhi), Hauz Khas, New Delhi 110016, India.
Supercomputing Facility for Bioinformatics and Computational Biology (SCFBio), IIT Delhi, Hauz Khas, New Delhi 110016, India.
ACS Omega. 2023 Sep 27;8(40):37573-37583. doi: 10.1021/acsomega.3c06058. eCollection 2023 Oct 10.
Altered secretion of insulin from pancreatic β-cells can manifest into disorders. For example, a lack of endogenously produced and/or secreted insulin results in Type 1 diabetes (and other associated subtypes). Pancreatic β-cells are the endocrine secretory cells that promote insulin secretion in response to glucose stimulation. Secretion in response to extracellular triggers is an interplay among various signaling pathways, transcription factors, and molecular mechanisms. The Mouse Insulinoma 6 (MIN6) cell line serves as a model system for gaining mechanistic insights into pancreatic β-cell functions. It is obvious that higher glucose consumption and increased insulin secretion are correlated. However, it has been reported that intracellular ATP levels remain ∼ constant beyond the extracellular glucose (EG) concentration of 10 mM. Therefore, any cause-effect relationship between glucose consumption (GC) and enhanced insulin secretion (eIS) remains unclear. We also found that total cellular protein, as well as total protein content in the culture "supernatant," remains constant regardless of varying EG concentrations. This indicated that eIS may be at the cost of (a) intracellular synthesis of other proteins and (b) secretion of other secretory proteins, or both (a) and (b), somehow coupled with GC by cells. To gain insights into the above, we carried out a transcriptome study of MIN6 cells exposed to hypoglycemic (HoG = 2.8 mM EG) and hyperglycemic (HyG = 25 mM EG) conditions. Expression of transcripts was analyzed in terms of Fragments Per Kilobase of transcript per Million mapped reads and Transcripts Per Million (FPKM and TPM) as well as values obtained by normalizing w.r.t. "∑(FPKM)" and "∑(TPM)." We report that HyG extracellular conditions lead to an ∼2-fold increase in insulin secretion compared to HoG measured by the enzyme-linked immunosorbent assay (ELISA) and transcripts of secreted proteins as well as their isoforms decreased in HyG conditions compared to HoG. Our results show for the first time that eIS in HyG conditions is at the cost of reduced transcription of other secreted proteins and is coupled with higher GC. The higher GC at increased extracellular glucose also indicates a yet undiscovered role of glucose molecules enhancing insulin secretion, since ATP levels resulting from glucose metabolism have been reported to be constant above an EG concentration of 10 mM. While extrapolation of our results to clinical implications is ambitious at best, this work reports novel cellular level aspects that seem relevant in some clinical observations pertaining to Type 1 diabetes. In addition, the conservatory nature of cellular secretions in insulin-secreting cells, discovered here, may be a general feature in cell biology.
胰腺β细胞胰岛素分泌的改变可表现为疾病。例如,内源性产生和/或分泌的胰岛素缺乏会导致1型糖尿病(以及其他相关亚型)。胰腺β细胞是内分泌分泌细胞,可响应葡萄糖刺激促进胰岛素分泌。对细胞外触发因素的分泌是各种信号通路、转录因子和分子机制之间的相互作用。小鼠胰岛素瘤6(MIN6)细胞系作为一种模型系统,用于深入了解胰腺β细胞的功能机制。显然,较高的葡萄糖消耗与增加的胰岛素分泌相关。然而,据报道,当细胞外葡萄糖(EG)浓度超过10 mM时,细胞内ATP水平保持相对恒定。因此,葡萄糖消耗(GC)与增强的胰岛素分泌(eIS)之间的任何因果关系仍不清楚。我们还发现,无论EG浓度如何变化,细胞总蛋白以及培养“上清液”中的总蛋白含量都保持恒定。这表明eIS可能是以(a)其他蛋白质的细胞内合成和(b)其他分泌蛋白的分泌为代价,或者(a)和(b)两者,在某种程度上与细胞的GC相关联。为了深入了解上述情况,我们对暴露于低血糖(HoG = 2.8 mM EG)和高血糖(HyG = 25 mM EG)条件下 的MIN6细胞进行了转录组研究。根据每百万映射读数中每千碱基转录本的片段数和每百万转录本(FPKM和TPM)以及通过相对于“∑(FPKM)”和“∑(TPM)”进行归一化获得的值来分析转录本的表达。我们报告说,与通过酶联免疫吸附测定(ELISA)测量的HoG相比,HyG细胞外条件导致胰岛素分泌增加约2倍,并且与HoG相比,HyG条件下分泌蛋白及其异构体的转录本减少。我们的结果首次表明,HyG条件下的eIS是以减少其他分泌蛋白的转录为代价的,并且与更高的GC相关联。细胞外葡萄糖增加时较高的GC也表明葡萄糖分子在增强胰岛素分泌方面有尚未被发现的作用,因为据报道,在EG浓度高于10 mM时,葡萄糖代谢产生的ATP水平是恒定的。虽然将我们的结果外推到临床意义充其量只是雄心勃勃,但这项工作报告了一些新的细胞水平方面的情况,这些情况似乎与1型糖尿病的一些临床观察结果相关。此外,此处发现的胰岛素分泌细胞中细胞分泌物的保守性质可能是细胞生物学中的一个普遍特征。
