Inventory and Evolution of Mitochondrion-localized Family A DNA Polymerases in Euglenozoa

The order Trypanosomatida has been well studied due to its pathogenicity and the unique biology of the mitochondrion. In Trypanosoma brucei, four DNA polymerases, namely PolIA, PolIB, PolIC, and PolID, related to bacterial DNA polymerase I (PolI), were shown to be localized in mitochondria experimentally. These mitochondrion-localized DNA polymerases are phylogenetically distinct from other family A DNA polymerases, such as bacterial PolI, DNA polymerase gamma (Polγ) in human and yeasts, “plant and protist organellar DNA polymerase (POP)” in diverse eukaryotes. However, the diversity of mitochondrion-localized DNA polymerases in Euglenozoa other than Trypanosomatida is poorly understood. In this study, we discovered putative mitochondrion-localized DNA polymerases in broad members of three major classes of Euglenozoa—Kinetoplastea, Diplonemea, and Euglenida—to explore the origin and evolution of trypanosomatid PolIA-D. We unveiled distinct inventories of mitochondrion-localized DNA polymerases in the three classes: (1) PolIA is ubiquitous across the three euglenozoan classes, (2) PolIB, C, and D are restricted in kinetoplastids, (3) new types of mitochondrion-localized DNA polymerases were identified in a prokinetoplastid and diplonemids, and (4) evolutionarily distinct types of POP were found in euglenids. We finally propose scenarios to explain the inventories of mitochondrion-localized DNA polymerases in Kinetoplastea, Diplonemea, and Euglenida

A self-renewing, tissue-engineered vascular graft for arterial reconstruction

ObjectiveVarious tissue-engineered vascular grafts have been studied to overcome the clinical disadvantages of conventional prostheses. Previous tissue-engineered vascular grafts have generally required preoperative cellular manipulation or use of bioreactors to improve performance, and their mechanical properties have been insufficient. We focused on the concept of in situ cellularization and developed a tissue-engineered vascular graft for arterial reconstruction that would facilitate renewal of autologous tissue without any pretreatment.MethodsThe graft comprised an interior of knitted polyglycolic acid compounded with collagen to supply a scaffold for tissue growth and an exterior of woven poly-l-lactic acid for reinforcement. All components were biocompatible and biodegradable, with excellent cellular affinity. The grafts, measuring 10 mm in internal diameter and 30 mm in length, were implanted into porcine aortas, and their utility was evaluated to 12 months after grafting.ResultsAll explants were patent throughout the observation period, with no sign of thrombus formation or aneurysmal change. Presence in the neomedia of endothelialization with proper integrity and parallel accumulation of functioning smooth muscle cells, which responded to vasoreactive agents, was confirmed in an early phase after implantation. Sufficient collagen synthesis and lack of elastin were quantitatively demonstrated. Dynamic assessment and long-term results of the in vivo study indicated adequate durability of the implants.ConclusionThe graft showed morphologic evidence of good in situ cellularization, satisfactory durability to withstand arterial pressure for 12 postoperative months, and the potential to acquire physiologic vasomotor responsiveness. These results suggest that our tissue-engineered vascular graft shows promise as an arterial conduit prosthesis

Immunolocalization of thymidylate synthase as a favorable prognostic marker in estrogen receptor-positive breast carcinoma

Background: Thymidylate synthase (TS) is an enzyme involved in DNA synthesis, and it is a target for 5-fluorouracil. Previous studies have demonstrated that TS is a potent estrogen-induced gene in breast carcinoma cells, suggesting the importance of TS in estrogen-receptor (ER)-positive breast carcinoma. TS immunolocalization has been reported previously, but the clinicopathological significance of TS in ER-positive breast carcinoma still remains unclear. Patients and methods: We immunolocalized TS in 178 breast carcinoma tissues in total, and examined its significance according to the ER-status. Results: TS status was positive in 58% of ERpositive ductal carcinoma in situ (DCIS) cases, and it was significantly associated with the Ki-67 and progesterone receptor (PR). Moreover, in ER-positive DCIS patients who received aromatase inhibitor (AI) before surgery, TS immunoreactivity was significantly decreased after AI treatment. In ER-positive invasive ductal carcinoma (IDC) cases, TS status was significantly associated with PR, and it turned out an independent favorable prognostic factor for recurrence of the patients by multivariate analysis. On the other hand, TS status was positively correlated with pathological T factor in ER-negative IDC cases, and tended to have a worse prognosis for disease-free survival of the patients. Conclusion: These results suggest that TS expression is mainly regulated by estrogen in ERpositive breast carcinoma and is associated with estrogen-mediated proliferation. TS status is a favorable prognostic factor in ER-positive IDC patients, which is different from the ER-negative cases