Your search keyword '"Meflin"' showing total 21 results

1. Meflin/ISLR is a marker of adipose stem and progenitor cells in mice and humans that suppresses white adipose tissue remodeling and fibrosis.

Author

Ishihara, Toshikazu, Kato, Katsuhiro, Matsumoto, Kotaro, Tanaka, Miyako, Hara, Akitoshi, Shiraki, Yukihiro, Morisaki, Hidenori, Urano, Yuya, Ando, Ryota, Ito, Kisuke, Mii, Shinji, Esaki, Nobutoshi, Furuhashi, Kazuhiro, Takefuji, Mikito, Suganami, Takayoshi, Murohara, Toyoaki, and Enomoto, Atsushi

Subjects

*WHITE adipose tissue, *PROGENITOR cells, *CELL size, *STEM cells, *MESENCHYMAL stem cells, *FAT cells

Abstract

Identifying specific markers of adipose stem and progenitor cells (ASPCs) in vivo is crucial for understanding the biology of white adipose tissues (WAT). PDGFRα‐positive perivascular stromal cells represent the best candidates for ASPCs. This cell lineage differentiates into myofibroblasts that contribute to the impairment of WAT function. However, ASPC marker protein(s) that are functionally crucial for maintaining WAT homeostasis are unknown. We previously identified Meflin as a marker of mesenchymal stem cells (MSCs) in bone marrow and tissue‐resident perivascular fibroblasts in various tissues. We also demonstrated that Meflin maintains the undifferentiated status of MSCs/fibroblasts. Here, we show that Meflin is expressed in WAT ASPCs. A lineage‐tracing experiment showed that Meflin+ ASPCs proliferate in the WAT of obese mice induced by a high‐fat diet (HFD), while some of them differentiate into myofibroblasts or mature adipocytes. Meflin knockout mice fed an HFD exhibited a significant fibrotic response as well as increases in adipocyte cell size and the number of crown‐like structures in WAT, accompanied by impaired glucose tolerance. These data suggested that Meflin expressed by ASPCs may have a role in reducing disease progression associated with WAT dysfunction. [ABSTRACT FROM AUTHOR]

Published

2024

2. Meflin is a marker of pancreatic stellate cells involved in fibrosis and epithelial regeneration in the pancreas.

Author

Ando, Ryota, Shiraki, Yukihiro, Miyai, Yuki, Shimizu, Hiroki, Furuhashi, Kazuhiro, Minatoguchi, Shun, Kato, Katsuhiro, Kato, Akira, Iida, Tadashi, Mizutani, Yasuyuki, Ito, Kisuke, Asai, Naoya, Mii, Shinji, Esaki, Nobutoshi, Takahashi, Masahide, and Enomoto, Atsushi

Subjects

PANCREAS, PANCREATIC intraepithelial neoplasia, PANCREATIC duct, CHRONIC pancreatitis, FIBROSIS, PANCREATIC tumors, REGENERATION (Biology), PANCREATIC enzymes

Abstract

Pancreatic stellate cells (PSCs) are stromal cells in the pancreas that play an important role in pancreatic pathology. In chronic pancreatitis (CP) and pancreatic ductal adenocarcinoma (PDAC), PSCs are known to get activated to form myofibroblasts or cancer‐associated fibroblasts (CAFs) that promote stromal fibroinflammatory reactions. However, previous studies on PSCs were mainly based on the findings obtained using ex vivo expanded PSCs, with few studies that addressed the significance of in situ tissue‐resident PSCs using animal models. Their contributions to fibrotic reactions in CP and PDAC are also lesser‐known. These limitations in our understanding of PSC biology have been attributed to the lack of specific molecular markers of PSCs. Herein, we established Meflin (Islr), a glycosylphosphatidylinositol‐anchored membrane protein, as a PSC‐specific marker in both mouse and human by using human pancreatic tissue samples and Meflin reporter mice. Meflin‐positive (Meflin+) cells contain lipid droplets and express the conventional PSC marker Desmin in normal mouse pancreas, with some cells also positive for Gli1, the marker of pancreatic tissue‐resident fibroblasts. Three‐dimensional analysis of the cleared pancreas of Meflin reporter mice showed that Meflin+ PSCs have long and thin cytoplasmic protrusions, and are localised on the abluminal side of vessels in the normal pancreas. Lineage tracing experiments revealed that Meflin+ PSCs constitute one of the origins of fibroblasts and CAFs in CP and PDAC, respectively. In these diseases, Meflin+ PSC‐derived fibroblasts showed a distinctive morphology and distribution from Meflin+ PSCs in the normal pancreas. Furthermore, we showed that the genetic depletion of Meflin+ PSCs accelerated fibrosis and attenuated epithelial regeneration and stromal R‐spondin 3 expression, thereby implying that Meflin+ PSCs and their lineage cells may support tissue recovery and Wnt/R‐spondin signalling after pancreatic injury and PDAC development. Together, these data indicate that Meflin may be a marker specific to tissue‐resident PSCs and useful for studying their biology in both health and disease. © 2023 The Pathological Society of Great Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2024

3. Safety and efficacy of MIKE-1 in patients with advanced pancreatic cancer: a study protocol for an open-label phase I/II investigator-initiated clinical trial based on a drug repositioning approach that reprograms the tumour stroma

Author

Yasuyuki Mizutani, Tadashi Iida, Eizaburo Ohno, Takuya Ishikawa, Fumie Kinoshita, Yachiyo Kuwatsuka, Miwa Imai, Shinobu Shimizu, Toshihisa Tsuruta, Atsushi Enomoto, Hiroki Kawashima, and Mitsuhiro Fujishiro

Subjects

Cancer stroma, Tumour microenvironment, Cancer-associated fibroblasts, Cancer-restraining CAFs, Meflin, ISLR, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Cancer-associated fibroblasts (CAFs) are an important component of the tumour microenvironment. Recent studies revealed CAFs are heterogeneous and CAF subset(s) that suppress cancer progression (cancer-restraining CAFs [rCAFs]) must exist in addition to well-characterised cancer-promoting CAFs (pCAFs). However, the identity and specific markers of rCAFs are not yet reported. We recently identified Meflin as a specific marker of rCAFs in pancreatic and colon cancers. Our studies revealed that rCAFs may represent proliferating resident fibroblasts. Interestingly, a lineage tracing experiment showed Meflin-positive rCAFs differentiate into α-smooth muscle actin-positive and Meflin-negative CAFs, which are generally hypothesised as pCAFs, during cancer progression. Using a pharmacological approach, we identified AM80, a synthetic unnatural retinoid, as a reagent that effectively converts Meflin-negative pCAFs to Meflin-positive rCAFs. We aimed to investigate the efficacy of a combination of AM80 and gemcitabine (GEM) and nab-paclitaxel (nab-PTX) in patients with advanced pancreatic cancer. Methods The phase I part is a 3 + 3 design, open-label, and dose-finding study. The dose-limiting toxicity (DLT) of these combination therapies would be evaluated for 4 weeks. After the DLT evaluation period, if no disease progression is noted based on the Response Evaluation Criteria in Solid Tumors (RECIST) version 1.1 or if the patient has no intolerable toxicity, administration of AM80 with GEM and nab-PTX would be continued for up to 24 weeks. The phase II part is an open-label, single-arm study. The maximum tolerated dose (MTD) of AM80 with GEM and nab-PTX, determined in phase I, would be administered until intolerable toxicity or disease progression occurs, up to a maximum of 24 weeks, to confirm efficacy and safety. The primary endpoints are frequency of DLT and MTD of AM80 with GEM and nab-PTX in the phase I part and response rate based on the RECIST in the phase II part. Given the historical control data, we hope that the response rate will be over 23% in phase II. Discussion Strategies to convert pCAFs into rCAFs have been developed in recent years. We hypothesised that AM80 would be a promising enhancer of chemosensitivity and drug distribution through CAF conversion in the stroma. Trial registration Clinicaltrial.gov: NCT05064618 , registered on 1 October 2021. jRCT: jRCT2041210056 , registered on 27 August 2021.

Published

2022

4. BMP3b Is a Novel Antifibrotic Molecule Regulated by Meflin in Lung Fibroblasts.

Author

Atsushi Suzuki, Koji Sakamoto, Yoshio Nakahara, Atsushi Enomoto, Jun Hino, Akira Ando, Masahide Inoue, Yukihiro Shiraki, Norihito Omote, Masahiro Kusaka, Jun Fukihara, and Naozumi Hashimoto

Subjects

LUNGS, MYOFIBROBLASTS, GROWTH differentiation factors, GENE expression profiling, FIBROBLASTS, PULMONARY fibrosis, EXTRACELLULAR matrix, LUNG diseases

Abstract

Fibroblasts play a central role in the lung fibrotic process. Our recent study identified a novel subpopulation of lung fibroblasts expressing meflin (mesenchymal stromal cell- and fibroblastexpressing Linx paralogue), antifibrotic properties of which were confirmed by murine lung fibrosis model. Meflin-expressing fibroblasts were resistant to fibrogenesis induced by TGF-β (transforming growth factor-b), but its underlying mechanisms remain unknown. In this study, evaluation of a silicananoparticle-induced lung fibrosis model confirmed the antifibrotic effect of meflin via the regulation of TGF-β signaling. We conducted comparative gene expression profiling in lung fibroblasts, which identified growth differentiation factor 10 (Gdf10) encoding bone morphogenic protein 3b (BMP3b) as the most downregulated gene in meflin-deficient cells under the profibrotic condition with TGF-β. We hypothesized that BMP3b can be an effector molecule playing an antifibrotic role downstream of meflin. As suggested by single-cell transcriptomic data, restricted expressions of Gdf10 (Bmp3b) in stromal cells including fibroblasts were confirmed. We examined possible antifibrotic properties of BMP3b in lung fibroblasts and demonstrated that Bmp3b-null fibroblasts were more susceptible to TGF-β-induced fibrogenic changes. Furthermore, Bmp3b-null mice exhibited exaggerated lung fibrosis induced by silicananoparticles in vivo. We also demonstrated that treatment with recombinant BMP3B was effective against TGF-β-induced fibrogenesis in fibroblasts, especially in the suppression of excessive extracellular matrix production. These lines of evidence suggested that BMP3b is a novel humoral effector molecule regulated by meflin which exerts antifibrotic properties in lung fibroblasts. Supplementation of BMP3B could be a novel therapeutic strategy for fibrotic lung diseases. [ABSTRACT FROM AUTHOR]

Published

2022

5. Possible disease-protective roles of fibroblasts in cancer and fibrosis and their therapeutic application.

Author

Yukihiro Shiraki, Shinji Mii, Nobutoshi Esaki, and Atsushi Enomoto

Subjects

FIBROBLASTS, CANCER, CANCER cells, MESENCHYMAL stem cells, CANCER invasiveness

Abstract

Cancer and fibrotic diseases are characterized by continuous inflammation, tissue wounds, and injuries. Cancer is a “wound that does not heal,” and the uncontrolled proliferation of cancer cells disrupts normal tissue integrity and induces stromal fibroinflammatory reactions. Fibroblasts proliferate extensively in the stroma, playing a major role in the development of these diseases. There has been considerable evidence that fibroblasts contribute to fibrosis and tissue stiffening and promote disease progression via multiple mechanisms. However, recent emerging findings, mainly derived from single-cell transcriptomic analysis, indicated that fibroblasts are functionally heterogeneous, leading to the hypothesis that both diseasepromoting and -restraining fibroblasts exist. We recently showed that a fibroblast population, defined by the expression of the glycosylphosphatidylinositol-anchored membrane protein Meflin may suppress but not promote fibrotic response and disease progression in cancer and fibrotic diseases. Although currently hypothetical, the primary function of Meflin-positive fibroblasts may be tissue repair after injury and cancer initiation occurred. This observation has led to the proposal of a potential therapy that converts the phenotype of fibroblasts from pro-tumor to anti-tumor. In this short review, we summarize our recent findings on the function of Meflin in the context of cancer and fibrotic diseases and discuss how we can utilize this knowledge on fibroblasts in translational medicine. We also discuss several aspects of the interpretation of survival analysis data, such as Kaplan-Meier analysis, to address the function of specific genes expressed in fibroblasts. [ABSTRACT FROM AUTHOR]

Published

2022

6. Good and Bad Stroma in Pancreatic Cancer: Relevance of Functional States of Cancer-Associated Fibroblasts.

Author

Ando, Ryota, Sakai, Akihiro, Iida, Tadashi, Kataoka, Kunio, Mizutani, Yasuyuki, and Enomoto, Atsushi

Subjects

*PANCREATIC tumors, *FIBROBLASTS, *CELL physiology, *FIBROSIS, *CANCER

Abstract

Simple Summary: Recent progress in research on the biology of cancer-associated fibroblasts (CAFs) in pancreatic ductal adenocarcinoma (PDAC) indicates their diverse states and plasticity, which may lead to good and bad stroma, suppressing and promoting cancer progression, respectively. The characteristics of the stroma differ spatially, even within the same tumors, based on the balance between cancer-restraining CAF and cancer-promoting CAF proliferation at the site. These heterogeneous CAFs also influence the sensitivity of PDAC to anticancer therapeutics. Further preclinical and clinical studies will advance our understanding of the roles of CAFs in disease progression and aid the development of therapeutics that modulate or ameliorate the tumor microenvironment in PDAC. A well-known feature of human pancreatic ductal adenocarcinoma (PDAC) is the extensive proliferation of cancer-associated fibroblasts (CAFs) and highly fibrotic stroma. Recent evidence, based mainly on single-cell analyses, has identified various subsets of CAFs in PDAC mouse models. However, we do not know how these CAF subsets are involved in the progression and drug resistance of human PDAC. Additionally, it remains unclear whether these diverse CAFs have distinct origins and are indicators of genuinely distinct CAF lineages or reflect different states of the same CAFs depending on the tumor microenvironment. Interestingly, recent preclinical studies have started to characterize the nature of cancer-restraining CAFs and have identified their markers Meflin and collagen type I alpha 1. These studies have led to the development of strategies to induce changes in CAF phenotypes using chemical reagents or recombinant viruses, and some of them have been tested in clinical studies. These strategies have the unique potential to convert the so-called bad stroma to good stroma and may also have therapeutic implications for non-cancer diseases such as fibrotic diseases. Together with recently developed sophisticated strategies that specifically target distinct CAF subsets via adoptive cell transfer therapy, vaccination, and antibody–drug conjugates, any future findings arising from these clinical efforts may expand our understanding of the significance of CAF diversity in human PDAC. [ABSTRACT FROM AUTHOR]

Published

2022

7. Editorial: Mechanisms of Inflammation and Fibrosis Interplays in the Digestive Diseases

Author

Atsushi Masamune and Shin Hamada

Subjects

all-trans retinoic acid, anti-stromal therapy, meflin, pancreatic cancer, pancreatic fibrosis, pancreatic stellate cells, Physiology, QP1-981

Published

2022

8. Matrix remodeling‐associated protein 8 is a marker of a subset of cancer‐associated fibroblasts in pancreatic cancer.

Author

Ichihara, Ryosuke, Shiraki, Yukihiro, Mizutani, Yasuyuki, Iida, Tadashi, Miyai, Yuki, Esaki, Nobutoshi, Kato, Akira, Mii, Shinji, Ando, Ryota, Hayashi, Masamichi, Takami, Hideki, Fujii, Tsutomu, Takahashi, Masahide, and Enomoto, Atsushi

Subjects

*EXTRACELLULAR matrix proteins, *PANCREATIC cancer, *FIBROBLASTS, *PANCREATIC duct, *CANCER invasiveness, *MEMBRANE proteins

Abstract

Cancer‐associated fibroblasts (CAFs), a compartment of the tumor microenvironment, were previously thought to be a uniform cell population that promotes cancer progression. However, recent studies have shown that CAFs are heterogeneous and that there are at least two types of CAFs, that is, cancer‐promoting and ‐restraining CAFs. We previously identified Meflin as a candidate marker of cancer‐restraining CAFs (rCAFs) in pancreatic ductal adenocarcinoma (PDAC). The precise nature of rCAFs, however, has remained elusive owing to a lack of understanding of their comprehensive gene signatures. Here, we screened genes whose expression correlated with Meflin in single‐cell transcriptomic analyses of human cancers. Among the identified genes, we identified matrix remodeling‐associated protein 8 (MXRA8), which encodes a type I transmembrane protein with unknown molecular function. Analysis of MXRA8 expression in human PDAC samples showed that MXRA8 was differentially co‐expressed with other CAF markers. Moreover, in patients with PDAC or syngeneic tumors developed in MXRA8‐knockout mice, MXRA8 expression did not affect the roles of CAFs in cancer progression, and the biological importance of MXRA8+ CAFs is still unclear. Overall, we identified MXRA8 as a new CAF marker; further studies are needed to determine the relevance of this marker. [ABSTRACT FROM AUTHOR]

Published

2022

9. Safety and efficacy of MIKE-1 in patients with advanced pancreatic cancer: a study protocol for an open-label phase I/II investigator-initiated clinical trial based on a drug repositioning approach that reprograms the tumour stroma.

Author

Mizutani, Yasuyuki, Iida, Tadashi, Ohno, Eizaburo, Ishikawa, Takuya, Kinoshita, Fumie, Kuwatsuka, Yachiyo, Imai, Miwa, Shimizu, Shinobu, Tsuruta, Toshihisa, Enomoto, Atsushi, Kawashima, Hiroki, and Fujishiro, Mitsuhiro

Subjects

*CANCER patients, *DRUG repositioning, *TUMOR microenvironment, *RESEARCH protocols, *CANCER invasiveness

Abstract

Background: Cancer-associated fibroblasts (CAFs) are an important component of the tumour microenvironment. Recent studies revealed CAFs are heterogeneous and CAF subset(s) that suppress cancer progression (cancer-restraining CAFs [rCAFs]) must exist in addition to well-characterised cancer-promoting CAFs (pCAFs). However, the identity and specific markers of rCAFs are not yet reported. We recently identified Meflin as a specific marker of rCAFs in pancreatic and colon cancers. Our studies revealed that rCAFs may represent proliferating resident fibroblasts. Interestingly, a lineage tracing experiment showed Meflin-positive rCAFs differentiate into α-smooth muscle actin-positive and Meflin-negative CAFs, which are generally hypothesised as pCAFs, during cancer progression. Using a pharmacological approach, we identified AM80, a synthetic unnatural retinoid, as a reagent that effectively converts Meflin-negative pCAFs to Meflin-positive rCAFs. We aimed to investigate the efficacy of a combination of AM80 and gemcitabine (GEM) and nab-paclitaxel (nab-PTX) in patients with advanced pancreatic cancer.Methods: The phase I part is a 3 + 3 design, open-label, and dose-finding study. The dose-limiting toxicity (DLT) of these combination therapies would be evaluated for 4 weeks. After the DLT evaluation period, if no disease progression is noted based on the Response Evaluation Criteria in Solid Tumors (RECIST) version 1.1 or if the patient has no intolerable toxicity, administration of AM80 with GEM and nab-PTX would be continued for up to 24 weeks. The phase II part is an open-label, single-arm study. The maximum tolerated dose (MTD) of AM80 with GEM and nab-PTX, determined in phase I, would be administered until intolerable toxicity or disease progression occurs, up to a maximum of 24 weeks, to confirm efficacy and safety. The primary endpoints are frequency of DLT and MTD of AM80 with GEM and nab-PTX in the phase I part and response rate based on the RECIST in the phase II part. Given the historical control data, we hope that the response rate will be over 23% in phase II.Discussion: Strategies to convert pCAFs into rCAFs have been developed in recent years. We hypothesised that AM80 would be a promising enhancer of chemosensitivity and drug distribution through CAF conversion in the stroma.Trial Registration: Clinicaltrial.gov: NCT05064618 , registered on 1 October 2021. jRCT: jRCT2041210056 , registered on 27 August 2021. [ABSTRACT FROM AUTHOR]

Published

2022

10. Roles of the Mesenchymal Stromal/Stem Cell Marker Meflin/Islr in Cancer Fibrosis

Author

Masahide Takahashi, Hiroki Kobayashi, Yasuyuki Mizutani, Akitoshi Hara, Tadashi Iida, Yuki Miyai, Naoya Asai, and Atsushi Enomoto

Subjects

Meflin, Islr, cancer-associated fibroblast, mesenchymal stromal/stem cell, tumour microenvironment, fibrosis, Biology (General), QH301-705.5

Abstract

Fibroblasts synthesise the extracellular matrix (ECM) such as collagen and elastin, the excessive accumulation of which can lead to fibrosis and organ dysfunction under pathological conditions. Cancer-associated fibroblasts (CAFs) are major constituents of the tumour microenvironment (TME) that accompany the desmoplastic reaction responsible for anti-cancer treatment resistance. Thus, it is important to dissect the roles of CAFs in the TME to develop new therapeutic strategies for refractory cancers. Recent progress in the studies of CAF biology suggests that the functions of CAFs are complicated and that they are composed of functionally distinct populations, including cancer-promoting CAFs (pCAFs) and cancer-restraining CAFs (rCAFs). We recently identified a new cell surface marker for rCAFs in pancreatic and colon cancers, designated as Meflin (mesenchymal stromal cell- and fibroblast-expressing Linx paralogue)/Islr (immunoglobulin super family containing leucine-rich repeat). Based on the distribution of Meflin/Islr-positive cells, we also considered it a specific candidate marker for mesenchymal stroma/stem cells. Meflin/Islr-positive CAFs have been shown to suppress cancer progression by being involved in regulating collagen structures and BMP signalling in the TME. This review describes the function of Meflin/Islr in cancer fibrosis as well as in cardiac and lung fibrosis and its potential in the development of new cancer therapeutics.

Published

2021

11. Meflin defines mesenchymal stem cells and/or their early progenitors with multilineage differentiation capacity.

Author

Hara, Akitoshi, Kato, Katsuhiro, Ishihara, Toshikazu, Kobayashi, Hiroki, Asai, Naoya, Mii, Shinji, Shiraki, Yukihiro, Miyai, Yuki, Ando, Ryota, Mizutani, Yasuyuki, Iida, Tadashi, Takefuji, Mikito, Murohara, Toyoaki, Takahashi, Masahide, and Enomoto, Atsushi

Subjects

*FAT cells, *STROMAL cells, *MESENCHYMAL stem cells, *PROGENITOR cells, *FATE mapping (Genetics), *MUSCLE cells, *SATELLITE cells

Abstract

Mesenchymal stem cells (MSCs) are the likely precursors of multiple lines of mesenchymal cells. The existence of bona fide MSCs with self‐renewal capacity and differentiation potential into all mesenchymal lineages, however, has been unclear because of the lack of MSC‐specific marker(s) that are not expressed by the terminally differentiated progeny. Meflin, a glycosylphosphatidylinositol‐anchored protein, is an MSC marker candidate that is specifically expressed in rare stromal cells in all tissues. Our previous report showed that Meflin expression becomes down‐regulated in bone marrow‐derived MSCs cultured on plastic, making it difficult to examine the self‐renewal and differentiation of Meflin‐positive cells at the single‐cell level. Here, we traced the lineage of Meflin‐positive cells in postnatal and adult mice, showing that those cells differentiated into white and brown adipocytes, osteocytes, chondrocytes and skeletal myocytes. Interestingly, cells derived from Meflin‐positive cells formed clusters of differentiated cells, implying the in situ proliferation of Meflin‐positive cells or their lineage‐committed progenitors. These results, taken together with previous findings that Meflin expression in cultured MSCs was lost upon their multilineage differentiation, suggest that Meflin is a useful potential marker to localize MSCs and/or their immature progenitors in multiple tissues. [ABSTRACT FROM AUTHOR]

Published

2021

12. Editorial: Mechanisms of Inflammation and Fibrosis Interplays in the Digestive Diseases.

Author

Masamune, Atsushi and Hamada, Shin

Subjects

DIFFUSION magnetic resonance imaging, PANCREATIC intraepithelial neoplasia, LIVER histology, FIBROSIS, INFLAMMATORY bowel diseases

Abstract

Anti-stromal therapy, meflin, pancreatic cancer, pancreatic fibrosis, all-trans retinoic acid, vitamin D, pancreatic stellate cells Meflin-expressing I i -SMA positive cells suppressed tumorigenicity and poor differentiation of pancreatic cancer cells in the subcutaneous implantation model, suggesting a certain cancer-inhibiting population in PSCs. Loss of PKN2 in PSCs promoted pancreatic cancer cell growth and invasion in the I in vitro i co-culture model and I in vivo i orthotopic implantation model. Keywords: all-trans retinoic acid; anti-stromal therapy; meflin; pancreatic cancer; pancreatic fibrosis; pancreatic stellate cells; vitamin D EN all-trans retinoic acid anti-stromal therapy meflin pancreatic cancer pancreatic fibrosis pancreatic stellate cells vitamin D 1 3 3 04/18/22 20220414 NES 220414 Fibrosis denotes excessive scarring and is seen in a wide variety of benign and malignant diseases in the digestive systems. [Extracted from the article]

Published

2022

13. Cancer‐associated fibroblasts that restrain cancer progression: Hypotheses and perspectives.

Author

Miyai, Yuki, Esaki, Nobutoshi, Takahashi, Masahide, and Enomoto, Atsushi

Abstract

The roles of cancer‐associated fibroblasts (CAF) in the progression of various types of cancers are well established. CAF promote cancer progression through pleiotropic mechanisms, including the secretion of soluble factors and extracellular matrix, physical interactions with cancer cells, and the regulation of angiogenesis, immunity and metabolism. Their contribution to therapeutic resistance is also well appreciated. Therefore, CAF have been considered as a therapeutic target in cancer. However, recent studies in autochthonous pancreatic cancer models suggest that specific subset(s) of CAF exhibit cancer‐restraining roles, indicating that CAF are functionally and molecularly heterogeneous, which is supported by recent single‐cell transcriptome analyses. While cancer‐promoting CAF (pCAF) have been extensively studied, the nature and specific marker(s) of cancer‐restraining CAF (rCAF) have remained uncharacterized. Interestingly, a recent study provided insight into the nature of rCAF and suggested that they may share molecular properties with pancreatic stellate cells (PSC) and mesenchymal stem/stromal cells (MSC). Complicating this finding is that PSC and MSC have been shown to promote the formation of a tumor‐permissive and tumor‐promoting environment in xenograft tumor models. However, these cells undergo significant transcriptional and epigenetic changes during ex vivo culture, which confounds the interpretation of experimental results based on the use of cultured cells. In this short review, we describe recent studies and hypotheses on the identity of rCAF and discuss their analogy to fibroblasts that suppress fibrosis in fibrotic diseases. Finally, we discuss how these findings can be exploited to develop novel anticancer therapies in the future. [ABSTRACT FROM AUTHOR]

Published

2020

14. Possible disease-protective roles of fibroblasts in cancer and fibrosis and their therapeutic application

Author

Shiraki, Yukihiro, Mii, Shinji, Esaki, Nobutoshi, and Enomoto, Atsushi

Subjects

mesenchymal stem cells, Meflin, perivascular fibroblasts, cancer-associated fibroblasts, Immunoglobulin superfamily containing leucine-rich repeat (ISLR)

Abstract

Cancer and fibrotic diseases are characterized by continuous inflammation, tissue wounds, and injuries. Cancer is a “wound that does not heal,” and the uncontrolled proliferation of cancer cells disrupts normal tissue integrity and induces stromal fibroinflammatory reactions. Fibroblasts proliferate extensively in the stroma, playing a major role in the development of these diseases. There has been considerable evidence that fibroblasts contribute to fibrosis and tissue stiffening and promote disease progression via multiple mechanisms. However, recent emerging findings, mainly derived from single-cell transcriptomic analysis, indicated that fibroblasts are functionally heterogeneous, leading to the hypothesis that both diseasepromoting and -restraining fibroblasts exist. We recently showed that a fibroblast population, defined by the expression of the glycosylphosphatidylinositol-anchored membrane protein Meflin may suppress but not promote fibrotic response and disease progression in cancer and fibrotic diseases. Although currently hypothetical, the primary function of Meflin-positive fibroblasts may be tissue repair after injury and cancer initiation occurred. This observation has led to the proposal of a potential therapy that converts the phenotype of fibroblasts from pro-tumor to anti-tumor. In this short review, we summarize our recent findings on the function of Meflin in the context of cancer and fibrotic diseases and discuss how we can utilize this knowledge on fibroblasts in translational medicine. We also discuss several aspects of the interpretation of survival analysis data, such as Kaplan-Meier analysis, to address the function of specific genes expressed in fibroblasts.

Published

2022

15. Meflin defines mesenchymal stem cells and/or their early progenitors with multilineage differentiation capacity

Author

Mikito Takefuji, Toyoaki Murohara, Atsushi Enomoto, Shinji Mii, Yasuyuki Mizutani, Toshikazu Ishihara, Masahide Takahashi, Akitoshi Hara, Katsuhiro Kato, Hiroki Kobayashi, Tadashi Iida, Yuki Miyai, Yukihiro Shiraki, Naoya Asai, and Ryota Ando

Subjects

Lineage (genetic), Stromal cell, Brown Adipocytes, Cellular differentiation, Mesenchymal stromal cells, Immunoglobulins, Skeletal Myocytes, Biology, Osteocytes, Mice, 03 medical and health sciences, Chondrocytes, immunoglobulin superfamily containing leucine‐rich repeat, satellite cell, Adipocytes, Meflin, Genetics, Animals, Cell Lineage, Progenitor cell, 030304 developmental biology, Muscle Cells, 0303 health sciences, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Original Articles, Cell Biology, Islr, Cell biology, Mice, Inbred C57BL, Original Article

Abstract

Mesenchymal stem cells (MSCs) are the likely precursors of multiple lines of mesenchymal cells. The existence of bona fide MSCs with self‐renewal capacity and differentiation potential into all mesenchymal lineages, however, has been unclear because of the lack of MSC‐specific marker(s) that are not expressed by the terminally differentiated progeny. Meflin, a glycosylphosphatidylinositol‐anchored protein, is an MSC marker candidate that is specifically expressed in rare stromal cells in all tissues. Our previous report showed that Meflin expression becomes down‐regulated in bone marrow‐derived MSCs cultured on plastic, making it difficult to examine the self‐renewal and differentiation of Meflin‐positive cells at the single‐cell level. Here, we traced the lineage of Meflin‐positive cells in postnatal and adult mice, showing that those cells differentiated into white and brown adipocytes, osteocytes, chondrocytes and skeletal myocytes. Interestingly, cells derived from Meflin‐positive cells formed clusters of differentiated cells, implying the in situ proliferation of Meflin‐positive cells or their lineage‐committed progenitors. These results, taken together with previous findings that Meflin expression in cultured MSCs was lost upon their multilineage differentiation, suggest that Meflin is a useful potential marker to localize MSCs and/or their immature progenitors in multiple tissues., Contribution of Meflin‐positive cells to the development of multiple mesenchymal tissues. Meflin is a marker of MSCs/SSCs in the cartilage and bone, ADSCs in the adipose tissue, Pax7‐positive satellite cells and PDGFRα‐positive FAPs in the skeletal muscle.

Published

2021

16. Cancer‐associated fibroblasts that restrain cancer progression: Hypotheses and perspectives

Author

Yuki Miyai, Masahide Takahashi, Atsushi Enomoto, and Nobutoshi Esaki

Subjects

0301 basic medicine, Cancer Research, Stromal cell, Angiogenesis, cancer‐restraining cancer‐associated fibroblasts, Review Article, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Cancer-Associated Fibroblasts, Neoplasms, Pancreatic cancer, Tumor Microenvironment, Meflin, medicine, Animals, Humans, mesenchymal stem/stromal cells, Review Articles, Tumor microenvironment, Neovascularization, Pathologic, Pancreatic Stellate Cells, fibrosis, Mesenchymal stem cell, Cancer, Mesenchymal Stem Cells, General Medicine, medicine.disease, Extracellular Matrix, Cell Transformation, Neoplastic, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Heterografts

Abstract

The roles of cancer‐associated fibroblasts (CAF) in the progression of various types of cancers are well established. CAF promote cancer progression through pleiotropic mechanisms, including the secretion of soluble factors and extracellular matrix, physical interactions with cancer cells, and the regulation of angiogenesis, immunity and metabolism. Their contribution to therapeutic resistance is also well appreciated. Therefore, CAF have been considered as a therapeutic target in cancer. However, recent studies in autochthonous pancreatic cancer models suggest that specific subset(s) of CAF exhibit cancer‐restraining roles, indicating that CAF are functionally and molecularly heterogeneous, which is supported by recent single‐cell transcriptome analyses. While cancer‐promoting CAF (pCAF) have been extensively studied, the nature and specific marker(s) of cancer‐restraining CAF (rCAF) have remained uncharacterized. Interestingly, a recent study provided insight into the nature of rCAF and suggested that they may share molecular properties with pancreatic stellate cells (PSC) and mesenchymal stem/stromal cells (MSC). Complicating this finding is that PSC and MSC have been shown to promote the formation of a tumor‐permissive and tumor‐promoting environment in xenograft tumor models. However, these cells undergo significant transcriptional and epigenetic changes during ex vivo culture, which confounds the interpretation of experimental results based on the use of cultured cells. In this short review, we describe recent studies and hypotheses on the identity of rCAF and discuss their analogy to fibroblasts that suppress fibrosis in fibrotic diseases. Finally, we discuss how these findings can be exploited to develop novel anticancer therapies in the future., Meflin marks CAF that first emerge around metaplastic or transformed cells, which behave as rCAF and later give rise to α‐SMA+ CAF with low Meflin expression, in pancreatic cancer. This results in CAF heterogeneity in an advanced stage of pancreatic cancer.

Published

2020

17. Roles of the Mesenchymal Stromal/Stem Cell Marker Meflin/Islr in Cancer Fibrosis

Author

Yasuyuki Mizutani, Tadashi Iida, Yuki Miyai, Masahide Takahashi, Hiroki Kobayashi, Naoya Asai, Atsushi Enomoto, and Akitoshi Hara

Subjects

Tumor microenvironment, Stromal cell, QH301-705.5, cancer-associated fibroblast, fibrosis, Mesenchymal stem cell, Cancer, Review, Cell Biology, Biology, medicine.disease, Stem cell marker, Islr, Extracellular matrix, Cell and Developmental Biology, Fibrosis, Meflin, mesenchymal stromal/stem cell, medicine, Cancer research, Biology (General), Stem cell, tumour microenvironment, Developmental Biology

Abstract

Fibroblasts synthesise the extracellular matrix (ECM) such as collagen and elastin, the excessive accumulation of which can lead to fibrosis and organ dysfunction under pathological conditions. Cancer-associated fibroblasts (CAFs) are major constituents of the tumour microenvironment (TME) that accompany the desmoplastic reaction responsible for anti-cancer treatment resistance. Thus, it is important to dissect the roles of CAFs in the TME to develop new therapeutic strategies for refractory cancers. Recent progress in the studies of CAF biology suggests that the functions of CAFs are complicated and that they are composed of functionally distinct populations, including cancer-promoting CAFs (pCAFs) and cancer-restraining CAFs (rCAFs). We recently identified a new cell surface marker for rCAFs in pancreatic and colon cancers, designated as Meflin (mesenchymal stromal cell- and fibroblast-expressing Linx paralogue)/Islr (immunoglobulin super family containing leucine-rich repeat). Based on the distribution of Meflin/Islr-positive cells, we also considered it a specific candidate marker for mesenchymal stroma/stem cells. Meflin/Islr-positive CAFs have been shown to suppress cancer progression by being involved in regulating collagen structures and BMP signalling in the TME. This review describes the function of Meflin/Islr in cancer fibrosis as well as in cardiac and lung fibrosis and its potential in the development of new cancer therapeutics.

Published

2021

18. Meflin-Positive Cancer-Associated Fibroblasts Inhibit Pancreatic Carcinogenesis

Author

Liang Weng, Makoto Matsuyama, Yukihiro Shiraki, Seiichiro Ishihara, Atsushi Masamune, Susan L. Woods, Kaori Ushida, Suguru Yamada, Hiroki Kobayashi, Hisashi Haga, Matthew W. Conklin, Nobutoshi Esaki, Mitsuhiro Fujishiro, Suzanne M. Ponik, Naoya Asai, Masahide Takahashi, Tongtong Wang, Tomoe Kobayashi, Akitoshi Hara, Tadashi Iida, Kenju Ando, Junpei Yamaguchi, Teppei Shimamura, Tsutomu Fujii, Takaki Miyata, Daniel L. Worthley, Atsushi Enomoto, Arata Nagasaka, Yoshiki Hirooka, Shinji Mii, and Yasuyuki Mizutani

Subjects

0301 basic medicine, Cancer Research, Stromal cell, Carcinogenesis, Recombinant Fusion Proteins, Cellular differentiation, pancreatic cancer, Immunoglobulins, Mice, Transgenic, pancreatic stellate cells, Biology, medicine.disease_cause, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Meflin, Biomarkers, Tumor, Genes, Synthetic, medicine, tumor microenvironment, Animals, Humans, Vitamin D, Mice, Knockout, Tumor microenvironment, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Fibroblasts, Prognosis, Gene Expression Regulation, Neoplastic, Pancreatic Neoplasms, 030104 developmental biology, Oncology, Tumor progression, 030220 oncology & carcinogenesis, Disease Progression, Cancer research, Heterografts, Cancer-Associated Fibroblasts, Stromal Cells, Stem cell, lysyl oxidase, cancer-associated fibroblasts, Neoplasm Transplantation, Carcinoma, Pancreatic Ductal

Abstract

Cancer-associated fibroblasts (CAF) constitute a major component of the tumor microenvironment. Recent observations in genetically engineered mouse models and clinical studies have suggested that there may exist at least two functionally different populations of CAFs, that is, cancer-promoting CAFs (pCAF) and cancer-restraining CAFs (rCAF). Although various pCAF markers have been identified, the identity of rCAFs remains unknown because of the lack of rCAF-specific marker(s). In this study, we found that Meflin, a glycosylphosphatidylinositol-anchored protein that is a marker of mesenchymal stromal/stem cells and maintains their undifferentiated state, is expressed by pancreatic stellate cells that are a source of CAFs in pancreatic ductal adenocarcinoma (PDAC). In situ hybridization analysis of 71 human PDAC tissues revealed that the infiltration of Meflin-positive CAFs correlated with favorable patient outcome. Consistent herewith, Meflin deficiency led to significant tumor progression with poorly differentiated histology in a PDAC mouse model. Similarly, genetic ablation of Meflin-positive CAFs resulted in poor differentiation of tumors in a syngeneic transplantation model. Conversely, delivery of a Meflin-expressing lentivirus into the tumor stroma or overexpression of Meflin in CAFs suppressed the growth of xenograft tumors. Lineage tracing revealed that Meflin-positive cells gave rise to α-smooth muscle actin-positive CAFs that are positive or negative for Meflin, suggesting a mechanism for generating CAF heterogeneity. Meflin deficiency or low expression resulted in straightened stromal collagen fibers, which represent a signature for aggressive tumors, in mouse or human PDAC tissues, respectively. Together, the data suggest that Meflin is a marker of rCAFs that suppress PDAC progression., ファイル公開：2020/10/01

Published

2019

19. BMP3b Is a Novel Antifibrotic Molecule Regulated by Meflin in Lung Fibroblasts.

Author

Suzuki A, Sakamoto K, Nakahara Y, Enomoto A, Hino J, Ando A, Inoue M, Shiraki Y, Omote N, Kusaka M, Fukihara J, and Hashimoto N

Subjects

Animals, Fibroblasts metabolism, Lung metabolism, Mice, Mice, Knockout, Silicon Dioxide pharmacology, Transforming Growth Factor beta metabolism, Transforming Growth Factors metabolism, Transforming Growth Factors pharmacology, Growth Differentiation Factor 10 metabolism, Pulmonary Fibrosis chemically induced, Pulmonary Fibrosis drug therapy, Pulmonary Fibrosis genetics

Abstract

Fibroblasts play a central role in the lung fibrotic process. Our recent study identified a novel subpopulation of lung fibroblasts expressing meflin (mesenchymal stromal cell- and fibroblast-expressing Linx paralogue), antifibrotic properties of which were confirmed by murine lung fibrosis model. Meflin-expressing fibroblasts were resistant to fibrogenesis induced by TGF-β (transforming growth factor-β), but its underlying mechanisms remain unknown. In this study, evaluation of a silica-nanoparticle-induced lung fibrosis model confirmed the antifibrotic effect of meflin via the regulation of TGF-β signaling. We conducted comparative gene expression profiling in lung fibroblasts, which identified growth differentiation factor 10 ( Gdf10 ) encoding bone morphogenic protein 3b (BMP3b) as the most downregulated gene in meflin-deficient cells under the profibrotic condition with TGF-β. We hypothesized that BMP3b can be an effector molecule playing an antifibrotic role downstream of meflin. As suggested by single-cell transcriptomic data, restricted expressions of Gdf10 (Bmp3b) in stromal cells including fibroblasts were confirmed. We examined possible antifibrotic properties of BMP3b in lung fibroblasts and demonstrated that Bmp3b -null fibroblasts were more susceptible to TGF-β-induced fibrogenic changes. Furthermore, Bmp3b -null mice exhibited exaggerated lung fibrosis induced by silica-nanoparticles in vivo . We also demonstrated that treatment with recombinant BMP3B was effective against TGF-β-induced fibrogenesis in fibroblasts, especially in the suppression of excessive extracellular matrix production. These lines of evidence suggested that BMP3b is a novel humoral effector molecule regulated by meflin which exerts antifibrotic properties in lung fibroblasts. Supplementation of BMP3B could be a novel therapeutic strategy for fibrotic lung diseases.

Published

2022

20. Roles of the Mesenchymal Stromal/Stem Cell Marker Meflin/Islr in Cancer Fibrosis.

Author

Takahashi M, Kobayashi H, Mizutani Y, Hara A, Iida T, Miyai Y, Asai N, and Enomoto A

Abstract

Fibroblasts synthesise the extracellular matrix (ECM) such as collagen and elastin, the excessive accumulation of which can lead to fibrosis and organ dysfunction under pathological conditions. Cancer-associated fibroblasts (CAFs) are major constituents of the tumour microenvironment (TME) that accompany the desmoplastic reaction responsible for anti-cancer treatment resistance. Thus, it is important to dissect the roles of CAFs in the TME to develop new therapeutic strategies for refractory cancers. Recent progress in the studies of CAF biology suggests that the functions of CAFs are complicated and that they are composed of functionally distinct populations, including cancer-promoting CAFs (pCAFs) and cancer-restraining CAFs (rCAFs). We recently identified a new cell surface marker for rCAFs in pancreatic and colon cancers, designated as Meflin (mesenchymal stromal cell- and fibroblast-expressing Linx paralogue)/Islr (immunoglobulin super family containing leucine-rich repeat). Based on the distribution of Meflin/Islr-positive cells, we also considered it a specific candidate marker for mesenchymal stroma/stem cells. Meflin/Islr-positive CAFs have been shown to suppress cancer progression by being involved in regulating collagen structures and BMP signalling in the TME. This review describes the function of Meflin/Islr in cancer fibrosis as well as in cardiac and lung fibrosis and its potential in the development of new cancer therapeutics., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Takahashi, Kobayashi, Mizutani, Hara, Iida, Miyai, Asai and Enomoto.)

Published

2021

21. Connective tissue growth factor produced by cancer‑associated fibroblasts correlates with poor prognosis in epithelioid malignant pleural mesothelioma.

Author

Ohara Y, Enomoto A, Tsuyuki Y, Sato K, Iida T, Kobayashi H, Mizutani Y, Miyai Y, Hara A, Mii S, Suzuki J, Yamashita K, Ito F, Motooka Y, Misawa N, Fukui T, Kawaguchi K, Yokoi K, and Toyokuni S

Subjects

Actins analysis, Actins metabolism, Aged, Connective Tissue Growth Factor analysis, Disease Progression, Female, Fibrosis, Humans, Immunoglobulins analysis, Immunoglobulins metabolism, Kaplan-Meier Estimate, Male, Mesothelioma, Malignant pathology, Mesothelioma, Malignant therapy, Middle Aged, Neoadjuvant Therapy, Pleura surgery, Pleural Neoplasms pathology, Pleural Neoplasms therapy, Survival Rate, Cancer-Associated Fibroblasts metabolism, Connective Tissue Growth Factor metabolism, Mesothelioma, Malignant mortality, Pleura pathology, Pleural Neoplasms mortality

Abstract

Malignant mesothelioma is an aggressive neoplasm for which effective treatments are lacking. We often encounter mesothelioma cases with a profound desmoplastic reaction, suggesting the involvement of cancer‑associated fibroblasts (CAFs) in mesothelioma progression. While the roles of CAFs have been extensively studied in other tumors and have led to the view that the cancer stroma contains heterogeneous populations of CAFs, their roles in mesothelioma remain unknown. We previously showed that connective tissue growth factor (CTGF), a secreted protein, is produced by both mesothelioma cells and fibroblasts and promotes the invasion of mesothelioma cells in vitro. In this study, we examined the clinical relevance of CAFs in mesothelioma. Using surgical specimens of epithelioid malignant pleural mesothelioma, we evaluated the clinicopathological significance of the expression of α‑smooth muscle actin (αSMA), the most widely used marker of CAFs, the expression of CTGF, and the extent of fibrosis by immunohistochemistry and Elastica‑Masson staining. We also analyzed the expression of mesenchymal stromal cell‑ and fibroblast‑expressing Linx paralogue (Meflin; ISLR), a recently reported CAF marker that labels cancer‑restraining CAFs and differ from αSMA‑positive CAFs, by in situ hybridization. The extent of fibrosis and CTGF expression in mesothelioma cells did not correlate with patient prognosis. However, the expression of αSMA and CTGF, but not Meflin, in CAFs correlated with poor prognosis. The data suggest that CTGF+ CAFs are involved in mesothelioma progression and represent a potential molecular target for mesothelioma therapy.

Published

2020