Ayo S H, Radnik R A, Glass W F, Garoni J A, Rampt E R, Appling D R, Kreisberg J I
Department of Pathology, University of Texas Health Science Center, San Antonio 78284-7750.
Am J Physiol. 1991 Feb;260(2 Pt 2):F185-91. doi: 10.1152/ajprenal.1991.260.2.F185.
Nodular expansion of glomerular mesangium with increased amounts of extracellular matrix (ECM) material is pathognomic of diabetic nephropathy. The precise mechanisms involved in this accumulation are unknown. Recently, we reported using a solid-phase enzyme-linked immunosorbent assay (ELISA) technique that glomerular mesangial cells, the principal cell type residing in glomerular mesangium, accumulate 50-60% more fibronectin (FN), laminin (LM), and type IV collagen (T-IV) when cultured in medium containing high glucose (30 mM) (S. H. Ayo, R. A. Rodnik, J. Garoni, W. F. Glass II, and J. I. Kreiberg. Am. J. Pathol. 136: 1339-1348, 1990). ECM assembly is controlled by its rate of synthesis and degradation, as well as its binding and rate of incorporation into the ECM. To elucidate the mechanisms involved, pulse-chase experiments were designed to estimate ECM protein synthesis from the incorporation of Trans-35S [( 35S]methionine, [35S]cysteine) into immunoprecipitated FN, LM, and T-IV. mRNA levels were examined, and degradation rates were estimated from the disappearance of radioactivity from matrix proteins in mesangial cells previously incubated with Trans-35S. One week of growth in 30 mM glucose resulted in approximately 40-50% increase in the synthesis of all three matrix proteins compared with 10 mM glucose-grown cells. This was accompanied by a significant increase in the transcripts for all three matrix proteins (approximately twofold). The specific activity of the radiolabel in trichloroacetic acid-precipitable cell protein showed no difference between cells grown in 10 or 30 mM glucose, indicating that total protein synthesis was unchanged. After 1 wk, the rate of FN, LM, and T-IV collagen degradation was unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
肾小球系膜结节状扩张,伴有细胞外基质(ECM)物质增多,是糖尿病肾病的特征性表现。这种积聚所涉及的精确机制尚不清楚。最近,我们报道使用固相酶联免疫吸附测定(ELISA)技术发现,肾小球系膜细胞是肾小球系膜中的主要细胞类型,当在含高糖(30 mM)的培养基中培养时,其纤连蛋白(FN)、层粘连蛋白(LM)和IV型胶原(T-IV)的积聚比在含10 mM葡萄糖的培养基中培养时多50 - 60%(S.H. 阿约、R.A. 罗德尼克、J. 加罗尼、W.F. 格拉斯二世和J.I. 克莱伯格。《美国病理学杂志》136: 1339 - 1348, 1990)。ECM组装受其合成和降解速率以及其与ECM的结合和掺入速率控制。为阐明其中涉及的机制,设计了脉冲追踪实验,通过将反式 - 35S[(35S]甲硫氨酸,[35S]半胱氨酸)掺入免疫沉淀的FN、LM和T-IV中来估计ECM蛋白合成。检测了mRNA水平,并根据先前用反式 - 35S孵育的系膜细胞中基质蛋白放射性的消失来估计降解速率。与在10 mM葡萄糖中生长的细胞相比,在30 mM葡萄糖中生长一周导致所有三种基质蛋白的合成增加约40 - 50%。这伴随着所有三种基质蛋白转录本的显著增加(约两倍)。在三氯乙酸可沉淀的细胞蛋白中放射性标记的比活性在10 mM或30 mM葡萄糖中生长的细胞之间没有差异,表明总蛋白合成未改变。1周后,FN、LM和T-IV胶原的降解速率未改变。(摘要截短于250字)
