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Complement C1q Tumor Necrosis Factor-Related Protein 9A (CTRP9A, Complement C1q tumor necrosis factor-related protein 9, C1QTNF9,C1QTNF9A,UNQ6503/PRO21380)

Complement C1q tumor necrosis factor-related protein 9 (C1q/TNF-related protein 9; CTRP9) is a highly conserved paralog of adiponectin. Of all the CTRP paralogs, CTRP9 shows the highest degree of amino acid identity to adiponectin in its globular C1q domain. CTRP9 protein exists in two isoforms, CTRP9A and CTRP9B. Although human CTRP9A and CTRP9B share 98% amino acid identity, they are encoded by distinct genes and are biochemically distinct. Human CTRP9A but not CTRP9B is expressed by adipose tissue. CTRP9B is expressed at very low levels in tissues. While CTRP9A is robustly secreted as a multimeric protein, CTRP9B requires physical association with CTRP9A or adiponectin for its secretion. CTRP9 is expressed predominantly in adipose tissue and females express higher levels of the transcript than males. Moreover, its expression levels in ob/ob mice changed in an agedependent manner, with significant up-regulation in younger mice. Adenovirus-mediated overexpression of CTRP9 in obese (ob/ob) mice significantly lowered serum glucose levels. CTRP9 is a secreted glycoprotein with multiple post-translational modifications in its collagen domain that include hydroxylated prolines and hydroxylated and glycosylated lysines. It is secreted as multimers (predominantly trimers) from transfected cells and circulates in the mouse serum with levels varying according to sex and metabolic state of mice. Furthermore, CTRP9 and adiponectin can be secreted as heterooligomers when cotransfected into mammalian cells, and in vivo, adiponectin/CTRP9 complexes can be reciprocally coimmunopreci­pitated from the serum of adiponectin and CTRP9 transgenic mice. The functional role of the plasma CTRP9 in ischemic heart disease is unknown. Systemic delivery of CTRP9 reduces myocardial infarct size and apoptosis following ischemiareperfusion in mice. CTRP9 protects cardiomyocyte from apoptosis through activation of AMPactivated protein kinase (AMPK). CTRP9 prevents acute cardiac ischemic injury via an AMPKdependent mechanism. The data indicate that CTRP9 functions to attenuate neointimal formation following vascular injury through its ability to inhibit vascular smooth muscle cell (VSMC) growth via cAMPdependent mechanism, suggesting that the therapeutic approaches to enhance CTRP9 production could be valuable for prevention of vascular restenosis after angioplasty. CTRP9 is a novel vasorelaxive adipocytokine which may exert vasculoprotective effects via the AdipoR1/AMPK/eNOS dependent/NO mediated signaling pathway. The vasoactive potency of CTRP9 exceeded that of adiponectin by 3-fold. Cardiac expression of CTRP9, exceeds adiponectin by >100-fold, and is significantly reduced in high-fat diet-induced diabetic mice. In H9c2 cells, TNF-α strongly inhibited CTRP9 expression (>60 %), and significantly reduced peroxisome proliferator activated receptorgamma (PPARγ), a known transcription factor promoting adiponectin expression.

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