Lei Hetian, Hovland Peter, Velez Gisela, Haran Aaron, Gilbertson Debra, Hirose Tatsuo, Kazlauskas Andrius
The Schepens Eye Research Institute, Department of Ophthalmology, Harvard Medical School, Boston, Massachusetts 02114, USA.
Invest Ophthalmol Vis Sci. 2007 May;48(5):2335-42. doi: 10.1167/iovs.06-0965.
Proliferative vitreoretinopathy (PVR) is a disorder characterized by the formation of cellular membranes on both surfaces of the retina and within the vitreous cavity. It occurs in 5% to 10% of patients who undergo retinal reattachment surgery. In the rabbit model of the disease, the platelet-derived growth factor alpha receptor (PDGFRalpha) is dramatically more capable of promoting PVR than is closely related PDGFRbeta. To test the ligand hypothesis (i.e., that this phenomenon can be explained by a predominance of PDGFRalpha-specific ligands) this study was conducted to determine the profile of PDGF ligands expressed by cells that induce PVR and in the vitreous of rabbits that have PVR. In addition, we examined which PDGF isoforms were present in the vitreous of patients with PVR, to assess the relevance of the rabbit model to the clinical setting.
PDGF isoforms were detected and quantified by Western blot analysis and ELISA. An assay was performed of conditioned medium from mouse embryo fibroblasts expressing the PDGFRalpha (Falpha) and rabbit conjunctival fibroblasts (RCFs), both of which cause PVR in the experimental model, and from human retinal pigment epithelial cells (ARPE-19). Because PDGF-C is secreted in a latent form and must be proteolytically processed to become biologically active, a PDGF-C processing assay was established, and conditioned medium was tested from these cells lines, for processing activity. Vitreous specimens, from control and PVR rabbits and from patients undergoing vitrectomy surgery, either to repair retinal detachment or for other reasons, were also tested for PDGF isoforms and for PDGF-C processing activity.
PDGF isoforms that activate PDGFRbeta (PDGF-B and -D) were either undetectable or were present at very low levels in all the samples tested. Relatively low levels of PDGF-A and -AB were detected, whereas PDGF-C was the predominant isoform. Falpha, RCFs, and ARPE-19 cells accumulated PDGF-C in the conditioned medium at an average rate of 2.0 +/- 0.2, 2.9 +/- 0.3, and 71.3 +/- 6.0 ng/mL per day, respectively. Although there was no detectable PDGF-C in the vitreous of control rabbits (n = 8), there was an average of 1784 +/- 1150 ng/mL latent PDGF-C in the vitreous from rabbits with PVR (n= 14). Of the patients with PVR, eight of nine contained PDGF-C (range, 50-1000 ng/mL). In contrast, PDGF-C was detected in only 1 of 16 of the patients without PVR. In both conditioned medium and vitreous samples, the latent (instead of the active) form of PDGF-C was detected, even though processing activity was present in all the samples tested.
The predominance of PDGF isoforms that activate PDGFRalpha support the ligand hypothesis as an explanation of why PDGFRalpha is more capable of inducing PVR than is PDGFRbeta. Furthermore, the profile of PDGF isoforms observed in the rabbit model accurately reflected the clinical specimens from patients with PVR. Finally, these findings implicate one of the new PDGF family members as an important contributor to experimental and clinical PVR.
增殖性玻璃体视网膜病变(PVR)是一种以视网膜两面和玻璃体内形成细胞膜为特征的疾病。它发生在5%至10%接受视网膜复位手术的患者中。在该疾病的兔模型中,血小板衍生生长因子α受体(PDGFRα)比密切相关的PDGFRβ更能显著促进PVR。为了验证配体假说(即这种现象可以用PDGFRα特异性配体占优势来解释),进行了本研究,以确定诱导PVR的细胞以及患有PVR的兔玻璃体中表达的血小板源性生长因子(PDGF)配体谱。此外,我们检测了PVR患者玻璃体中存在哪些PDGF异构体,以评估兔模型与临床情况的相关性。
通过蛋白质印迹分析和酶联免疫吸附测定(ELISA)检测并定量PDGF异构体。对表达PDGFRα的小鼠胚胎成纤维细胞(Fα)、兔结膜成纤维细胞(RCF)和人视网膜色素上皮细胞(ARPE - 19)的条件培养基进行检测,这三种细胞在实验模型中均会导致PVR。由于PDGF - C以潜伏形式分泌,必须经过蛋白水解加工才能具有生物活性,因此建立了PDGF - C加工测定法,并对这些细胞系的条件培养基进行加工活性检测。还对来自对照兔和患有PVR的兔以及接受玻璃体切除术以修复视网膜脱离或因其他原因接受手术的患者的玻璃体标本进行了PDGF异构体和PDGF - C加工活性检测。
在所有测试样品中,激活PDGFRβ的PDGF异构体(PDGF - B和 - D)要么无法检测到,要么含量极低。检测到相对较低水平的PDGF - A和 - AB,而PDGF - C是主要异构体。Fα、RCF和ARPE - 19细胞在条件培养基中积累PDGF - C的平均速率分别为每天2.0±0.2、2.9±0.3和71.3±6.0 ng/mL。虽然对照兔(n = 8)的玻璃体中未检测到PDGF - C,但患有PVR的兔(n = 14)的玻璃体中平均有1784±1150 ng/mL的潜伏性PDGF - C。在PVR患者中,9例中有8例含有PDGF - C(范围为50 - 1000 ng/mL)。相比之下,在16例无PVR的患者中只有1例检测到PDGF - C。在条件培养基和玻璃体样品中,均检测到PDGF - C的潜伏形式(而非活性形式),尽管在所有测试样品中都存在加工活性。
激活PDGFRα的PDGF异构体占优势支持了配体假说,解释了为何PDGFRα比PDGFRβ更能诱导PVR。此外,在兔模型中观察到的PDGF异构体谱准确反映了PVR患者的临床标本情况。最后,这些发现表明新的PDGF家族成员之一是实验性和临床性PVR的重要促成因素。
