Deletion of newly described pro-survival molecule Pellino-1 increases oxidative stress, downregulates cIAP2/NF-κB cell survival pathway, reduces angiogenic response, and thereby aggravates tissue function in mouse ischemic models.

INTRODUCTION: In the present study, we aimed to explore the functional role of Pellino-1 (Peli1) in inducing neovascularization after myocardial infarction (MI) and hindlimb ischemia (HLI) using Peli1 global knockout mice (Peli1-/-). Recently we have shown that Peli1, an E3 ubiquitin ligase, induce angiogenesis and improve survivability, with decreased necrosis of ischemic skin flaps. METHODS: Peli1fl/fl and Peli1-/- mice were subjected to either permanent ligation of the left anterior descending coronary artery (LAD) or sham surgery (S). Tissues from the left ventricular risk area were collected at different time points post-MI. In addition, Peli1fl/fl and Peli1-/- mice were also subjected to permanent ligation of the right femoral artery followed by motor function scores, Doppler analysis for blood perfusion and immunohistochemical analysis. RESULTS: Global Peli1 knockout exacerbated myocardial dysfunction, 30 and 60 days after MI compared to wild type (WT) mice as measured by echocardiogram. In addition, Peli1-/- mice also showed decreased motor function scores and perfusion ratios compared with Peli1fl/fl mice 28 days after the induction of HLI. The use of Peli1 in adenoviral gene therapy following HLI in CD1 mice improved the perfusion ratio at 28 days compared to Ad.LacZ-injected mice. CONCLUSION: These results suggest new insights into the protective role of Peli1 on ischemic tissues and its influence on survival signaling.

Overexpression of Thioredoxin1 enhances functional recovery in a mouse model of hind limb ischemia.

BACKGROUND: There is keen interest in finding nonsurgical treatments for peripheral vascular disease (PVD). Previously, we demonstrated that selective activation of Thioredoxin1 (Trx1), a 12-kDa cytosolic protein, initiates redox-dependent signaling and promotes neovascularization after ischemic heart disease. Therefore, Trx1 might possess immense potential to not only treat murine hind limb ischemia (HLI) through effective angiogenesis but also provide PVD patients with nonsurgical therapy to enhance neovascularization and improve blood perfusion. METHODS: To determine whether activation of Trx1 increases blood perfusion in HLI, two different strategies were used-gene therapy and transgenic model system. In adenoviral-mediated gene therapy, 8- to 12-wk-old mice were divided into two groups: (1) control Adeno-LacZ (Ad-LacZ) and (2) Adeno-Thiroedoxin1 (Ad-Trx1). The mice underwent surgical intervention to induce right HLI followed by injection with Ad-LacZ or Ad-Trx1, respectively. In the second strategy, we used wild-type and transgenic mice overexpressing Trx1 (Trx1Tg/+). All the animals underwent Doppler imaging for the assessment of limb perfusion followed by immunohistochemistry and Western blot analysis. RESULTS: Significant increases in perfusion ratio were observed in all the Trx1 overexpressed groups compared with their corresponding controls. Expressions of heme oxygenase-1, vascular endothelial growth factor, and the vascular endothelial growth factor receptors Flk-1 and Flt-1 were increased in Trx1 overexpressed mice compared with their respective controls. Blood perfusion in the ischemic limb gradually improved and significantly recovered in Trx1Tg/+ and Ad-Trx1 groups compared with their corresponding controls. The capillary and arteriolar density in the ischemic zone were found to be higher in Trx1Tg/+ group compared with wild type. CONCLUSIONS: The overall outcomes of our study demonstrate that Trx1 enhances blood perfusion and increases angiogenic protein expression in a rodent HLI model. These results suggest that Trx1 is a potential target for clinical trials and drug therapy for the treatment of PVD.

Trimodal rescue of hind limb ischemia with growth factors, cells, and nanocarriers: fundamentals to clinical trials.

Peripheral artery disease is a severe medical condition commonly characterized by critical or acute limb ischemia. Gradual accumulation of thrombotic plaques in peripheral arteries of the lower limb may lead to intermittent claudication or ischemia in muscle tissue. Ischemic muscle tissue with lesions may become infected, resulting in a non-healing wound. Stable progression of the non-healing wound associated with severe ischemia might lead to functional deterioration of the limb, which, depending on the severity, can result in amputation. Immediate rescue of ischemic muscles through revascularization strategies is considered the gold standard to treat critical limb ischemia. Growth factors offer multiple levels of protection in revascularization of ischemic tissue. In this review, the basic mechanism through which growth factors exert their beneficial properties to rescue the ischemic limb is extensively discussed. Moreover, clinical trials based on growth factor and stem cell therapy to treat critical limb ischemia are considered. The clinical utility of stem cell therapy for the treatment of limb ischemia is explained and recent advances in nanocarrier technology for selective growth factor and stem cell supplementation are summarized.

Endovascular Therapy for Spontaneous Ilio-Iliac Arteriovenous Fistula Due To Iliac Artery Aneurysm Rupture With Multi-Organ Dysfunction.

Iliac artery aneurysms can rarely present with rupture into adjacent iliac vein resulting in arteriovenous fistula leading to acute cardiac failure or multi-organ failure. End-organ damage can be reversed with timely diagnosis and intervention. Endovascular therapy is an attractive option to treat this pathology besides allowing for a quick recovery and mitigating the risk of mortality associated with open surgical treatment options. We report treatment of this pathology with Endovascular repair with preservation of ipsilateral hypogastric artery flow using an iliac branch graft device. The postoperative course was complicated by type 3 endoleak due to the separation of components between iliac branch graft and aortic stent graft with resultant recurrence of the fistula. Additional endovascular techniques, including placement of a venous stent and stent grafts to bridge the components, was used to treat the endoleak. We present this report due to the unique nature of the recurrent arteriovenous fistula, technical complexity, and resultant multi-organ dysfunction.

Suicide attempt with a kitchen knife.

Penetrating trauma to the abdomen can be a potential diagnostic dilemma for the trauma surgeon, and a formal exploratory laparotomy may result in the detection of occult injuries. We report a very unusual case of penetrating trauma to the abdomen resulting in pericardio-diagphragmatic rupture. We have also highlighted the technical aspects of clinical care in this specific scenario.