Division of Cardiovascular and Diabetes Research, Leeds Institute of Cardiovascular and Metabolic Medicine, University of Leeds, Leeds LS2 9JT, UK.
Bristol Heart Institute, University of Bristol, Level 7, Bristol Royal Infirmary, Bristol BS2 8HW, UK.
Matrix Biol. 2015 Apr;43:85-96. doi: 10.1016/j.matbio.2015.02.001. Epub 2015 Feb 11.
Transglutaminase activity has been widely implicated in bone deposition. A predominant role has been proposed for factor (F)XIII-A and a subsidiary role suggested for the homologous protein, transglutaminase 2. Full-length FXIII-A is an 83kDa protransglutaminase that is present both in plasma and also in haematopoietic and connective tissue lineages. Several studies have reported expression in murine cells, including osteocytes, of a 37 kDa protein that reacts with the monoclonal anti-FXIII-A antibody AC-1A1. This protein was presumed to be a catalytically active fragment of FXIII-A-83 and to play a major role in bone deposition. We detected a 37 kDa AC-1A1 reactive protein in FXIII-A mRNA negative cell lines and in tissues from FXIII-A(-/-) mice. By mass spectrometric sequencing of AC-1A1 immunoprecipitates, we identified this protein as transaldolase-1, and confirmed that recombinant transaldolase-1 is recognised by AC-1A1. We have also shown that bone deposition is normal in FXIII-A(-/-).TG2(-/-) double knockout mice, casting doubt on the role of transglutaminases in bone mineralisation. Various studies have used antibody AC-1A1 for immunohistochemistry or immunofluorescence. We observe strong FXIII-A dependent staining in paraffin embedded mouse heart sections, with relatively low background in non-expressing mouse cells. In contrast, FXIII-A independent staining predominates in cultured human cells using a standard immunofluorescence procedure. Immunofluorescence is present in membrane compartments that are expected to lack transaldolase, indicating that other off-target antigens are recognised by AC-1A1. This has significant implications for studies that have used this approach to define the subcellular trafficking of FXIII-A in osteocytes.
转谷氨酰胺酶活性广泛参与骨沉积。FXIII-A 因子被认为具有主要作用,而同源蛋白转谷氨酰胺酶 2 被认为具有辅助作用。全长 FXIII-A 是一种 83kDa 的前转谷氨酰胺酶,存在于血浆以及造血和结缔组织谱系中。多项研究报告称,包括成骨细胞在内的鼠细胞表达一种与单克隆抗 FXIII-A 抗体 AC-1A1 反应的 37kDa 蛋白。该蛋白被认为是 FXIII-A-83 的具有催化活性的片段,并在骨沉积中发挥主要作用。我们在 FXIII-A mRNA 阴性细胞系和 FXIII-A(-/-)小鼠组织中检测到 37kDa 的 AC-1A1 反应性蛋白。通过 AC-1A1 免疫沉淀的质谱测序,我们将该蛋白鉴定为转醛醇酶-1,并证实重组转醛醇酶-1被 AC-1A1 识别。我们还表明,FXIII-A(-/-)。TG2(-/-)双重基因敲除小鼠的骨沉积正常,这对转谷氨酰胺酶在骨矿化中的作用提出了质疑。各种研究都使用抗体 AC-1A1 进行免疫组织化学或免疫荧光染色。我们观察到在石蜡包埋的小鼠心脏切片中存在强烈的 FXIII-A 依赖性染色,而在不表达的小鼠细胞中背景相对较低。相比之下,在使用标准免疫荧光程序的培养的人细胞中,存在 FXIII-A 非依赖性染色为主。免疫荧光存在于预期缺乏转醛醇酶的膜隔室中,表明 AC-1A1 识别其他非靶抗原。这对使用这种方法定义成骨细胞中 FXIII-A 的亚细胞运输的研究具有重要意义。
