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It is important to anticipate problems such as a large amount of spring water that occurs during shafts construction and maintenance problems such as concentration of lining cracks after shafts construction in advance, and to carry out construction in a rational manner. Crack tensor from the rock mass information (cracks, strength) obtained by the construction of the shafts of the Horonobe Underground Research Laboratory of the JAEA, aiming at the selection of support and the implementation of spring water countermeasures. Based on the theory, the research results were summarized with the aim of evaluating the water hydraulic conductivity of the rock mass during shafts construction and the deteriorated condition of the lining after shafts construction, and establishing a simple prediction method for these. Chapter 1 summarizes the current state of rock mass geological observation and lining maintenance in the shafts, the water permeability coefficient of the rock mass, and the past domestic and overseas studies on the deterioration state of the lining, and the hydraulic conductivity of the rock mass using the rock mass information. The purpose of this study was clarified with the task of evaluating the deterioration state of the lining and establishing these simple prediction methods. In Chapter 2, crack tensor theory and stereology (statistical geometry) are used using information (length, direction, opening width) of rock cracks during shafts construction. By applying the concept, the three-dimensional permeable tensor was estimated accurately. Then, when the hydraulic conductivity obtained from the three-dimensional hydraulic tensor and the hydraulic conductivity based on the result of the in-situ permeability test using the deep borehole near the shafts were compared, it was clarified that they were in good agreement. A high correlation was obtained between the crack frequency obtained by dividing the total length of the cracks obtained in the shafts construction by the evcavation surface area and the hydraulic conductivity obtained from the three-dimensional hydraulic tensor. Therefore, we proposed a method to easily predict the hydraulic conductivity of rock from the frequency of cracks. The obtained prediction formula targets the depth at which three cross sections orthogonal to each other can be obtained on the rock crack observation surface, but the prediction formula was also obtained at a depth where three cross sections orthogonal to each other cannot be obtained. Comparing the hydraulic conductivity of the rock mass and the hydraulic conductivity based on the in-situ permeability test results, it was clarified that they are in good agreement. In Chapter 3, the orientation dependence of the earth pressure is recognized in the underground environment of the Horonobe Underground Research Center, and it is the major principal stress direction in the shafts of the underground Laboratory. Cracks have occurred on the lining wall surface in the east-west direction. However, the lining cracks in the shafts at that point may depend not only on the orientation dependence of the ground pressure, but also on the rock cracks on the back surface of the lining, the ground cover and the rock strength. If a prediction formula for predicting lining deterioration can be created in consideration, it will be useful information for countermeasures during construction, and based on the crack tensor calculated based on the information on cracks, from the rock crack tensor and rock strength. I proposed a method to estimate the deterioration condition of the lining. The estimated value of the crack tensor regarding the deterioration of the lining using the obtained prediction formula and the measured value calculated from the information of the lining crack, assuming that the margin of error due to the relative error is 0.1, the estimated value and the measured value are well one. Im adei t clear that Ia md oing it. In Chapter 4, aiming at selection of rational support for shafts extension of underground Research Laboratory planned in the future and implementation of spring water countermeasures. Ip roposed ac onstruction management system that applies the crack tensor prediction method for rock hydraulic conductivity during shafts construction and deterioration of lining after shafts construction. In the future, in order to select more rational support and implement measures against spring water, the rock mass information (cracks and rock mass strength) acquired during shafts construction will be obtained using the prediction formulas established in Chapters 2 and 3. By predicting the hydraulic conductivity of the rock and the crack tensor related to the deterioration of the lining, and reflecting it in the measures against spring water in the rock mass and the measures against the deformation of the lining, it can be expected to contribute to the reduction of maintenance costs. Chapter 5 summarizes the research results in each chapter and raises future issues for conclusion.

中央構造線(MTL; Median Tectonic Line)は、西南日本を東西に横断する延長約1000kmの断層である。愛媛県西条市付近には、MTLは三波川変成帯と和泉層群を境する構造線としての低角度な断層帯(MTLTB; MTL inactive terrane boundary)と、この断層の北側に並走する活断層としての高角度な断層帯(MTLAFZ; MTL active fault zone)がある。地表でのMTLAFZの傾斜角度を明らかにするために、川上断層を横断する延長約10m、深さ約2mのトレンチ調査を行った。また、地表部で約10mの間隔で並走する両断層の地下での接合関係と断層面の傾斜角度を明らかにするために、断層を横断する80-330mの6本のボーリング掘削を実施した。更に、より広範囲の断層構造や地盤の物性を把握するために延長1200mの反射法地震探査と延長500mの高密度電気探査を実施した。採取した断層試料を用いて断層岩の化学分析、変形構造記載、カルサイトの双晶密度の測定、断層の変形フェーズの解析を行い、低角度横ずれ断層のメカニズムや断層活動史を明らかにした。 トレンチ調査、ボーリング調査、高密度電気探査により、地表部で北方へ約70゜の角度で傾斜する川上断層が、地下で北方へ30゜の角度で傾斜するMTLTBに収れんすることが示唆され、地下のMTLTBは活断層であることが分かった。MTLTBの上盤に分布する小断層の卓越した和泉層群の比抵抗値は、主破砕帯の割れ目の少ない安山岩ブロックと推定される高比抵抗部を除き、断層下盤に分布する堅硬な三波川変成岩類の比抵抗値よりも低い値を示した。また、断層に沿って深部流体が上昇していると推定される低比抵抗帯が確認された。反射法地震探査では、MTLTBに相当する北方へ約30゜の角度で傾斜する明瞭な反射面が確認され、より深部まで断層が延長することが分かった。主破砕帯を構成する蛇紋岩中の鉱物のEPMA分析結果によると、マントル起源のマグネシオクロマイトを含むことが分かった。既往の深部地震探査の結果は、MTLの深部延長が下部地殻まで達しいることを示しているが、これにより、MTLTBの延長がマントルまで達し、蛇紋岩が断層変位とダイアピルによって表層部まで上昇してきたことが示唆された。MTLTBは断層面の傾斜角度が低角度であり、本来は横ずれ断層として動きにくいと考えられる。MTLTBの断層ガウジや主破砕帯に大量の層状珪酸塩鉱物が存在することや断層沿いの深部流体の存在は、断層のせん断強度を低下させる要因となり、低角度の断層でも横ずれ運動が可能になったと考えられる。カルサイトの双晶密度から求めたMTLTBを横断する歪み分布は断層から直線的で緩やかに低下する傾向を示し、断層のせん断強度が低下していることを示唆する。 変形フェーズの解析では、MTLTBとMTLAFZの幾何学的な特徴やそれぞれの断層と地層との接合関係、断層の変位センス等の構造地質学的特徴、古応力場の解析等に基づいて変形フェーズを古いほうからD1～D4の4つに定義した。D1フェーズはNNE-SSW圧縮の応力場の変形であり始新世中期(47 -46 Ma) 頃に断層の上盤が西方へ変位した左横ずれセンスの運動、D2フェーズはE-W伸張の応力場の変形であり中新世中期(15 -14 Ma) 頃に断層の上盤が北方へ変位した正断層センスの運動、D3フェーズはNNW-SSE圧縮の応力場の変形であり中新世中期から鮮新世後期(14-3Ma) 頃に断層上盤が南方へ変位した逆断層運動、D4フェーズはWNW-ESE圧縮の応力場の変形であり鮮新世後期から更新世前期(3-1 Ma) 以降に断層上盤が東方へ変位した右横ずれ運動である。 西南日本を横断する中央構造線沿いには多くの都市が分布しており、MTLの傾斜角度等の幾何学的な情報は、地震災害分布や地震の規模等を予測する上で重要パラメータになると考えられる。また、MTLAFZは地下数km以内の浅い深度でMTLTBに収れんすると考えられ、従来、非活動的な地質断層として考えられていたMTLTBが、将来、活断層として変位する可能性があることを示唆している。

Fertility decreases during aging in human and bovine females, but the exact pathophysiological mechanisms in the oviducts and uteri are not clarified yet. Anti- Müllerian hormone (AMH) is a glycoprotein that belongs to the transforming growth factor -β superfamily. Plasma AMH concentration can predict the fertility of adult female goats, ewes, cows, and women via unknown physiological mechanisms. This thesis study attempted to clarify whether AMH, and the main receptor for AMH, AMH receptor type 2 (AMHR2) have important roles for the age-related infertility. In first, I investigated whether the primary receptor for AMH, AMHR2, is expressed in bovine oviducts and endometria. Reverse transcription polymerase chain reaction (RTPCR) detected expression of AMHR2 mRNA in oviductal and endometrial specimens. Western blotting and immunohistochemistry were performed to analyse AMHR2 protein expression using anti-bovine AMHR2 antibody. Immunohistochemistry revealed robust AMHR2 expression in the tunica mucosa of the ampulla and isthmus, as well as in the glandular and luminal epithelium of the endometrium. The number of AMHR2-positive fibroblasts increased, suggesting the presence of fibrosis in the oviducts and uteri of old cows. AMHR2 mRNA (measured RT-qPCR) and AMHR2 protein expression in these layers did not significantly differ among oestrous phases in adult Japanese Black (JB) cows (P>0.1). In addition, AMHR2 mRNA and protein expression in these layers did not differ Among old Holsteins (mean (±SEM age 91.9±6.4 months ) and young (26.6±0.8 months) and old (98.8±10.2 months) JB cows. Therefore, AMHR2 is expressed in bovine oviducts and endometria. Other important hormones for endocrinological regulation have paracrine and autocrine roles. Therefore, in the next study, I investigated whether bovine oviducts and endometria produce AMH. RT-PCR and western blotting detected AMH expression in oviductal and endometrial specimens. Immunohistochemistry revealed robust AMH expression in the ampulla and isthmus epithelia, and the glandular and luminal endometrial epithelia (caruncular endometria). The number of AMH-positive fibroblasts increased, suggesting the presence of fibrosis in the oviducts and uteri of old cows. AMH mRNA and protein expression in these layers did not significantly differ among estrous phases in adult JB heifers (p > .1). Furthermore, the expression in these layers also did not differ among Holstein cows (93.8 ± 5.8 months old), JB heifers (25.5 ± 0.4 months old), and JB cows (97.9 ± 7.9 months old). We also compared AMH concentrations in the oviduct and uterine horn fluids among the three groups (measured by immunoassays). Interestingly, the AMH concentration in the oviduct fluid, but not in the uterine horn fluid, of Holstein cows was lower than those in JB heifers and cows (p < .05). Therefore, bovine oviducts and endometria express AMH and likely secrete it into the oviduct and uterine fluids. Collagen, the most abundant extra-cellular matrix in oviducts and uteri, performs critical roles in pregnancies. I hypothesised that the locations and amounts of both denatured collagen and the collagen-specific molecular chaperone 47-kDa heat shock protein (HSP47) in the oviducts and uteri of old cows are different compared with those of young heifers because of repeated pregnancies. Since detecting damaged collagen in tissues is challenging, we developed a new method that uses a denatured collagen detection reagent. Then, we compared damaged collagen in the oviducts and uteri between postpubertal growing nulliparous heifers (22.1 ± 1.0 months old) and old multiparous cows (143.1 ± 15.6 months old). Further, I evaluated the relationship between denatured collagen and HSP47 by combining this method with fluorescence immunohistochemistry. Picro sirius red staining showed collagen in almost all parts of the oviducts and uteri. Expectedly, damaged collagen was increased in the oviducts and uteri of old cows. However, damaged collagen and HSP47 were not located in the same area in old cows. The number of HSP47- positive fibroblasts increased, suggesting the presence of fibrosis in the oviducts and uteri of old cows. These organs of old cows showed higher HSP47 protein amounts than those of heifers. However, the uteri, but not oviducts, of old cows had lower HSP47 mRNA amounts than those of heifers. These findings revealed the specific location and amounts of denatured collagen and HSP47 in the oviducts and uteri of old cows compared with those of heifers. Therefore, I discovered the AMH, AMHR2 expression in several important layers of oviducts and uteri, and I discovered the increased AMH, AMHR2, and HSP47 in the fibroblasts after aging. However, still role of AMH, AMHR2 in oviducts and uteri were not clarified yet. Therefore, in the next study, I hypothesized that AMH stimulate HSP47 expression in fibroblast and epithelium. I cultured uterine fibroblasts and epithelial cells obtained from heifers. Then, I treated the cells with recombinant with increasing concentrations (0, 1, 10, or 100 ng mL-1) of AMH. HSP47 expression was measured by western blotting. AMH stimulated (P<0.05) HSP47 expression in epithelial cells but not in fibroblasts. Therefore, these findings suggested the role of AMH to cause the abnormal high HSP47 expression in the oviducts and uteri of old cows. In conclusion, this thesis discovered the AMH and AMHR2 in bovine oviducts and uteri, which have important roles for collagen synthesis via HSP47.

転写因子CCAAT/enhancer-bringing protein beta（C/EBPβ）は、IGF-binding protein-1（IGFBP-1）やprolactin（ERL）遺伝子のプロモーターおよびエンハンサー領域において、転写活性マーカーであるHistone-H3 lysine-27 アセチル化(H3K27ac)を誘導するパイオニア因子であり、ヒト子宮内膜間質細胞（ESC）の脱落膜化に貢献することを我々はこれまでに報告している。パイオニア因子の一部はヒストンアセチルトランスフェラーゼ（HAT）活性を有するコファクターと複合体を形成することで機能する。我々は、C/EBPβと共役するHATタンパクとしてp300を同定しているが、それ以外のコファクターについては不明である。Peroxisome proliferator-activated receptor gamma comma coactivator 1-α（PGC-1α）はH3K27acを制御することが知られている転写共役因子である。PGC-1αはESCでも発現しているが、脱落膜化におけるPGC-1αの機能は不明である。そこで、PGC-1αがC/EBPβの転写共役因子として働き、脱落膜化過程においてH3K27ac誘導に関与しているのではないかと考え検討した。脱落膜化を誘導するためにESCをcAMP存在上で培養した。cAMPによるIGFBP-1およびPRLの発現上昇はPGC-1αのノックダウンにより抑制された。また、cAMPはIGFBP-1およびPRLのプロモーターとエンハンサー領域に存在するC/EBPβ結合部位へのPGC-1αとp300のリクルートを増加させた。さらに、PGC-1αをノックダウンするとC/EBPβとp300に結合、およびH3K27acレベルが低下したことから、PGC-1αはこれらの領域でC/EBPβおよびp300とヒストン修飾複合体を形成することでH3K27ac誘導に関与していることが示された。さらにPGC-1αの発現制御機構を調べるために、C/EBPβを上流因子として着目した。PGC-1αのエンハンサー領域へのC/EBPβの結合はcAMPで増加した。また、これらのエンハンサーをゲノム編集により欠失させた細胞ではPGC-1αの発現が減少したことから、C/EBPβは我々が見出したエンハンサー領域に結合することでPGC-1αの発現を上昇させると考えられた。以上より、PGC-1αはC/EBPβの新規エンハンサーへの結合によって発現誘導されること、また、C/EBPβとp300と共にヒストン修飾複合体を形成して、IGFBP-1およびPRLのプロモーターとエンハンサーにエピゲノム変化を引き起こすことで脱落膜化に貢献していることがわかった。

【目的】代謝状態の朝晩の変化を理解することは、代謝障害を管理するためには重要である。我々は、インスリン分泌とインスリン感受性の観点からこの朝晩の変化を解析し、さらに概日リズムとの関連性を含めて検討することを目的とした。 【方法】非糖尿病成人男性14人と10人に対し、それぞれ75ｇ経口ブドウ糖負荷試験(OGTT)と高インスリン正常血糖（HE）クランプ実験を行った。各被験者に対し、午前8時と午後8時にOGTTまたはHEクランプを1回ずつ行った。ただし試験時間の順序は無作為とした。各試験直前に毛根を採取し、毛包における時計遺伝子発現量をリアルタイムPCR法で解析した。また、マウスの肝臓と筋肉でもAKTリン酸化をウエスタンブロット法により解析した。 【結果】OGTTの結果から、耐糖能は午前8時の方が良好であることがわかった。これは、OGTTにおける負荷後60分までのインスリン早期分泌とHEクランプで説明される骨格筋インスリン感受性の違いに起因すると考えられた。一方、OGTTにおける肝臓のインスリン抵抗性指数によって推定される肝インスリン感受性は、午後8時の方が良好であった。60分までのインスリン分泌量と肝臓のインスリン抵抗性指数の朝晩の差は、Per2のｍRNAの相対的発現量と有意に相関していた。ΔGIR（20時の値－8時の値）は、Δ非エステル化脂肪酸（NEFA）と有意に相関したが、時計遺伝子発現との相関は認められなかった。ΔNEFAは、E4bp4のmRNA発現量およびΔコルチゾールと有意に相関していた。マウスでは、ヒトの研究から予想されるように、AKTリン酸化は活動時間の初めに肝臓で減少し、筋肉で増加していた。 【結語】各組織の糖代謝は朝と晩で大きく異なっており、脂質代謝、時計遺伝子およびコルチゾールの影響を受けていることがわかった。この関連性についてのより深い知見が代謝障害の新たな改善法の開発に寄与する可能性がある。

右心室 (RV) の機能障害とそれに関連する不整脈は、肺動脈性肺高血圧症 (PAH) の予後の重要な決定要因として認識されている。今回心臓リアノジン受容体 (RyR2) の安定剤であるダントロレン (DAN) による右室心筋への直接的な薬理学的介入が、モノクロタリン (MCT) 誘発性PAHラットモデルにおいてRV機能障害および不整脈に対する保護効果を有するかどうかを調査することを目的とした。方法として雄の8週齢のSprague-Dawleyラットに、PAHの誘発のためにMCTを腹腔内投与した。カテコールアミンによる心室頻拍 (VT) の誘発も、単離された心筋細胞におけるRyR2を介したCa^{2+}放出特性に関連して評価された。RVの形態と機能に対する慢性的な圧力過負荷の独立した影響を評価するためには、肺動脈縮窄モデルも確立した。結果、MCT誘発PHAラットモデルでは、RV肥大、拡張、および機能低下が観察され、MCT誘発2か月後の生存率は0%であった。対照的に、慢性DAN治療はこれらすべてのRVパラメータを改善し、生存率を80%に増加させた。慢性的なDAN療法はまた、RyR2からのカルモジュリンの解離を防ぎ、それによってMCTによって誘発された肥大したRV心筋細胞におけるCa^{2+}スパークと自発的なCa^{2+}トランジェストを抑制した。エピネフリンは、MCT誘発性PAHのラットの50%以上でVTを誘発したが、慢性DAN治療によってVTの完全に抑制した。以上よりDANによるRyR2の安定化は、PAHに関連するRV機能障害および致命的な不整脈の発症に対する新しい治療薬としての可能性を秘めている。

We previously discovered that SPC/Fyn/Rho-kinase (ROK) pathway mediates the Ca^{2+}-sensitization of coronary arterial smooth muscle (CASM) contraction leading to vasospasm, a major cause of sudden death. Lately, we have been trying to find and develop more natural edible compounds which can treat and/or prevent the SPC-induced abnormal CASM contraction, and finally the first to discover that tangeretin (5,6,7,8,4'-prentamethoxyflavone), a natural compound extracted from citrus plants, can inhibit the SPC-induced CASM contraction both in the pretreatment and posttreatment. In porcine CASM tissues, tangeretin showed remarkable inhibitory effects on the SPC-induced contraction with modest inhibitory effects on the high K^+-depolarization-induced Ca^{2+}-dependent contraction, both in pretreatment and posttreatment at the optimal concentrations; Regarding the mechanisms, tangeretin markedly abolished the SPC-induced cell contraction through inhibiting the SPC-induced activation and translocation of Fyn and ROK from the cytoplasm to the cell membrane in cultured CASM cells, resulting in the reduction of phosphorylation of myosin light chain. Taken together, these findings indicate that tangeretin, upon pre- or post- treatment, inhibits the SPC-induced CASM contraction through suppressing the Fyn/ROK signaling pathway, thereby suggesting that tangeretin can be a potential candidate for the treatment and/or prevention of vasospasm.

Huntingtin-associated protein 1 (HAP1) is a neural huntingtin interactor and being considered as a core molecule of stigmoid body (STB). Brain or spinal cord regions with abundant STB/HAP1 expression are usually spared from neurodegeneration, whereas the regions with little STB/HAP1 expression are always neurodegenerative targets. The enteric nervous system (ENS) can act as a potential portal for pathogenesis of neurodegenerative disorders. To date, the expression of HAP1 and its neurochemical characterization have never been examined there. In the current study, we determined the expression and immunohistochemical phenotypes of HAP1 in ENS of adult rodents using Western blotting and light/fluorescence microscopy. HAP1 immunoreactivity was strongly expressed in both myenteric and submucosal plexuses of ENS. STBs were observed in the cytoplasm of most of the HAP1-immunoractive (ir) cells in ENS. In myenteric plexus, a large number of calretinin, calbindin, NOS, VIP, ChAT, SP, somatostatin, and TH-ir neurons showed HAP1 immunoreactivity. In contrast, most of the CGRP-ir neurons were devoid of HAP1-immunoreactivity. In submucosal plexus, almost all the cholinergic secretomotor neurons containing ChAT/ CGRP/ somatostatin/ calretinin, non-cholinergic secretomotor neurons containing VIP/TH/calretinin and vasodilator neurons containing VIP/calretinin express HAP1. Our current study is the first to clarify that HAP1 is highly expressed in excitatory motor neurons, inhibitory motor neurons, and interneurons but almost absent in sensory neurons in myenteric plexus. While, HAP1 is expressed in all neuronal subgroups of Meissner’s plexuses. These suggest that due to lack of putative STB/HAP1 protectivity, the sensory neurons (Dogiel type II) might be more vulnerable to neurodegeneration than STB/HAP1-expressing Dogiel type I neurons in myenteric plexus and secretomotor/vasodilator in Meissner’s plexuses. Our current results may reflect the involvement of HAP1 in modulation of excitatory and inhibitory motor neuron functions in myenteric plexus and the secretomotor and vasodilator functions of submucosal neurons. It will be of great interest to elucidate the physiological or pathological roles of HAP1 in ENS. Our current results might lay a basic foundation for future studies that seek to clarify the physiological/pathological effects of STB/HAP1 in the ENS.

背景：経食道心エコー図検査（TEE）は、心房細動（AF）に対する肺静脈隔離術（PVI）前の左心房（LA）および左心耳（LAA）における血栓の有無の評価を行うゴールドスタンダードな検査である。TEEは比較的安全とされているが、近年PVIに先行するTEEが食道粘膜損傷（EMI）を引き起こす可能性があることが報告された。 目的：PVIを施行したAF患者におけるTEE関連EMIの発生率とその危険因子を検討すること。 方法と結果：3D TEEプローブを用いた術前TEEと術後上部消化管内視鏡検査を受けたPVI患者262人を対象とした。TEE関連EMIは16人（6.1%）の患者（18病変）、PVI関連EMIは5人（1.9%）の患者（8病変）で認められた。TEE関連EMIは上部食道の右側と中部食道の左前側で多く認められた。1人の患者で軽度の胸部違和感を認めた。多変量解析では、高齢はTEE関連EMIの独立した危険因子であった（オッズ比1.08、95%信頼区間1.01-1.16；P=0.0274）。 結語：3D TEEプローブによるTEE関連EMIは、PVI施行患者の6.1%で認められ、高齢であることはTEE関連EMIの危険因子であった。これらの所見から、特に高齢患者においては、LA・LAAにおける血栓評価として他の画像診断を考慮する必要があるかもしれない。

近年、遺伝子改変T細胞を用いた養子免疫療法の臨床応用が進められているが、未だ治療成績は満足のいくものではなく、更なる治療の進歩が求められている。我々はこれまで、自律性にIL7とCCL19を発現するCAR-T細胞（7×19 CAT-R細胞）が優れた抗腫瘍活性を発揮することを示した。本研究ではIL7及びCCL19がTCR-T細胞の抗腫瘍活性を増強させる可能性を検証するため、腫瘍抗原であるP1Aを特異的に認識するTCR-T細胞（P1A-T細胞）にIL7及びCCL19を分泌させる遺伝子改変を加えた7×19 P1A-T細胞を作製した。P1Aを有する細胞株であるP815を皮下接種したマウスに対する養子免疫療法において、7×19 P1A細胞はIL7及びCCL19を分泌しないP1A-T細胞（Conv. P1A-T細胞）と比較し優れた抗腫瘍効果を示した。腫瘍拒絶マウスにおいては、Conv. P1A-T細胞を使用したマウスと比較し優れた免疫記憶が形成されていた。また抗PD-1抗体を用いた複合免疫療法を行うことで、7×19 P1A-T細胞の有する抗腫瘍効果は更に増強された。CRISPR/ Cas9システムを用いPdcd1をknockdownした7×19 P1A-T細胞は対照7×19 P1A-T細胞と比較し強い抗腫瘍効果を示したが、抗PD-1抗体を併用することで更なる抗腫瘍効果の増強を認めたことから、7×19 P1A-T細胞の発揮する抗腫瘍効果には7×19 P1A-T細胞そのものばかりでなくマウス内在性のT細胞が関与していることが分かった。また、7×19 P1A-T細胞においても抗PD-1抗体との併用により抗腫瘍効果が増強することを確認した。本研究における検証により、7×19 TCR-T細胞及び7×19 CAR-T細胞を用いた免疫療法が抗悪性腫瘍療法の発展に寄与できる可能性が示された。

In high strain-rate zones, active regions of ongoing crustal deformation, earthquakes occur frequently, the total slip rates of active faults are in the zone not consistent to strain rate detected by geodesy. This difference is one of the most significant issues for crustal deformation, and is known as "strain-rate paradox". Previous crustal deformation models are mainly constructed with major active faults alone, whereas minor faults are often recognized in the high strain-rate zones. The aims of this thesis are to solve the strain-rate paradox and propose a new image of the crustal deformation by focusing on the minor faults. In order to accomplish these goals, the representative high strain-rate zones such as San-in Shear Zone (SSZ) and Niigata-Kobe Tectonic Zone (NKTZ) were targeted. As a result of the topographical and geological approaches, universal model, origin, deformation process and mechanism of the high strain-rate zone were clarified. The main outcomes are as follows: (1) Minor faults in the NKTZ, which are mostly NE-SW to ENE-WSW-trending, have a few mm to a few dozens of cm in width and exhibit dextral sense of shear. These minor faults are distributed in the vicinity and/or away from the major active faults. In addition, the active fault, whose core zone has 5 m in thickness, were found. Such fault showed dextral sense of shear and has the latest slip event after AD 1521-1658, suggesting that the fault clearly contribute to the dextral deformation of the NKTZ. The origins of such faults are thought to be tensile cracks formed in Cretaceous, suggesting that the faults contribute to the dextral deformation of the NKTZ after repeated faulting along the cracks. The minor faults away from the major active faults are also thought to contribute to the deformation of the NKTZ, whereas minor faults outside of the NKTZ cannot contribute to that of the NKTZ. (2) Minor faults in the SSZ, which are mostly ENE-WSW to NE-SW-trending, have a few mm to a few dozens of cm in width and exhibit dextral sense of shear. These other minor faults trending NW-SE ～ NNW-SSE direction with steep dips, are sinistral sense of shear. The minor faults, which is trending E-W direction with steep dips, showed dextral sense of shear. Active faults, whose attitude are nearly parallel to the SSZ, are also newly recognized. The thickness of the fault is a few cm and thought to show dextral-reverse oblique slip after 18648-16313 cal. BC. The frameworks of the major active faults in the SSZ are thought to prepared along the geological boundaries and such faults have grown by the repeated activities since Paleogene. It is considered that not only major active faults but also minor faults away from the major active faults can contribute to the dextral motion of the SSZ. On the contrary, there are only reverse fault was recognized in the area outside of the SSZ. (3) The minor fault in the high strain-rate zones, which includes the minor fault away from the major active fault, can contribute to the dextral deformation of the high strain-rate zones because of their attitudes and sense of shears. On the other hand, the minor faults outside of the high strain-rate zones cannot contribute to the dextral deformation of the zone due to their attitudes and sense of shears. Thus, there are noteworthy difference between minor faults in and outside of the high strain-rate zones. Combining these outcomes, a hierarchical structure of the high strain-rate zones can be constructed as follows: (I) fault core of major active faults, (II) damage zone of major active faults, (III) brittle shear zone (or active background; the area beyond the damage zone but in the SSZ), (IV) inactive background (outside of the high strain-rate zone). This new model enables to partly solve the strain rate paradox for both zones, whereas an occurrence of faults differs between the zones. The NKTZ is characterized by NE-SW to ENE-WSW-trending minor faults and their thickness ranging from a few mm to a few dozens of cm. The active faults possess fault core with > 5 m in thickness. The SSZ are characterized by NW-SE or E-W-trending minor faults and their thickness ranging from a few mm to a few dozens of cm. Some faults show the Quaternary activities, whereas fault core with a few meters in thickness were not found. These differences on fault occurrence are considered to be derived from the evolutional processes. It is thought that the repeated activities along the pre-existed structures lead to present active faults. Thus, it can be considered that the faults are assigned in response to the local geological background, which result in dextral contribution to the high strain-rate zones. This study clarified universal model, origin, deformation process and mechanism of the high strain-rate zone by focusing on the minor faults. These achievements can constrain the modeling of the crustal deformation and interpretations of the geodetical observations and can contribute to assessments of large-scale constructions and seismic hazards.