Department of Physiology, Wayne State University, Detroit, MI, 48201, USA.
Department of Pathology, Wayne State University, Detroit, MI, 48201, USA.
Mol Cell Biochem. 2019 Jul;457(1-2):201-214. doi: 10.1007/s11010-019-03524-9. Epub 2019 Mar 27.
Adiponectin (ADN) is an abundant protein in serum, secreted by adipocytes, that acts as a signal for fat metabolism. It is marked by a complex molecular structure that results from processes within the secretory pathway, producing a canonical set of multimers. ADN may also be secreted from cardiomyocytes, where a unique sarcomeric endoplasmic/sarcoplasmic reticulum (ER/SR) substructure has been characterized primarily for its Ca handling. We expressed ADN in cultured primary adult cardiomyocytes and nonmuscle (COS) cells. After 48 h of ADN expression by adenovirus treatment, roughly half of synthesized ADN was secreted from cardiomyocytes, and half was still in-transit within inner membrane compartments, similar to COS cells. Cardiomyocytes and COS cells both produced ADN in the three canonical forms: trimers, hexamers, and 18-mers. Higher rates of secretion occurred for higher-molecular weight multimers, especially 18-mers. The highest levels of ADN protein, whether in transit or secreted, were present as trimers and hexamers. In nonmuscle cell lines, ADN trafficked through ER and Golgi compartments as expected. In contrast, ADN in primary adult cardiomyocytes populated ER/SR tubules along the edges of sarcomeres that emanated from nuclear surfaces. Prominent co-localization of ADN occurred with calsequestrin, a marker of junctional SR, the Ca-release compartment of the cell. The early steps in ADN trafficking re-trace those recently described for newly made junctional SR proteins, involving a nuclear envelope (NE) translocation into SR tubules that are oriented along sarcolemmal transverse (T)-tubules (NEST pathway).
脂联素(ADN)是血清中丰富的蛋白质,由脂肪细胞分泌,作为脂肪代谢的信号。它的分子结构复杂,是由分泌途径中的一系列过程产生的,产生了一组典型的多聚体。ADN 也可能从心肌细胞中分泌出来,在那里,一种独特的肌节内质网/肌浆网(ER/SR)亚结构主要因其 Ca 处理而被描述。我们在培养的成年原代心肌细胞和非肌肉(COS)细胞中表达了 ADN。用腺病毒处理 ADN 表达 48 小时后,大约一半合成的 ADN 从心肌细胞中分泌出来,另一半仍在内膜隔室内运输,与 COS 细胞相似。心肌细胞和 COS 细胞都产生了三种典型形式的 ADN:三聚体、六聚体和十八聚体。更高分子量的多聚体的分泌率更高,特别是十八聚体。无论是在运输中还是分泌的 ADN 蛋白,其含量最高的形式都是三聚体和六聚体。在非肌肉细胞系中,ADN 如预期的那样通过内质网和高尔基体室运输。相比之下,在原代成年心肌细胞中,ADN 沿源自核表面的肌节边缘填充 ER/SR 小管。ADN 与钙池蛋白(calsequestrin)明显共定位,钙池蛋白是连接 SR 的标志物,也是细胞的 Ca 释放区室。ADN 运输的早期步骤重现了最近描述的新形成的连接 SR 蛋白的运输步骤,涉及核膜(NE)向沿肌膜横向(T)-小管(NEST 途径)定向的 SR 小管的易位。
