Regulation of Intestinal Stem Cell Stemness by the Aryl Hydrocarbon Receptor and Its Ligands

Wisniewski, Paul; Nagarkatti, Mitzi; Nagarkatti, Prakash

doi:10.3389/fimmu.2021.638725

Cited by 11 publications

(8 citation statements)

References 116 publications

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“…Maintenance of intestinal epithelial homeostasis is strictly regulated by cellular proliferation in the crypt and apoptotic cell shedding from villus tip. The cell migration from the base of the crypt to the apical epithelial surface sustains matured cell turnover by maintaining rigorous equilibrium between cell death and cell proliferation ( 42 , 89 ). Increased intestinal cell apoptosis and shedding have been observed in pathological states leading to inflammation led colitis ( 42 , 90 – 92 ).…”

Section: Discussionmentioning

confidence: 99%

A Novel Probiotic Bacillus subtilis Strain Confers Cytoprotection to Host Pig Intestinal Epithelial Cells during Enterotoxic Escherichia coli Infection

Sudan

Zhan

2022

Microbiol Spectr

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Section: Discussionmentioning

confidence: 99%

A Novel Probiotic Bacillus subtilis Strain Confers Cytoprotection to Host Pig Intestinal Epithelial Cells during Enterotoxic Escherichia coli Infection

Sudan

Zhan

2022

Microbiol Spectr

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“…AHR is a regulator of cytochrome P450, which metabolizes xenobiotic chemicals coming through our alimentary canal. Importantly, AHR displays stemness properties and dispenses stem-like functions because it regulates metabolic enzymes, moderates immunity, and balances stem cell pluripotency vs differentiation [ 50 , 51 ]. After all, AHR binds exogenous ligands, such as natural plant flavonoids, polyphenols, and indoles, that we ingest to feed ourselves, as well as to feed the microbiome in our guts.…”

Section: Diet and Exercisementioning

confidence: 99%

Stem-Cell Theory of Cancer: Implications for Antiaging and Anticancer Strategies

Pisters

2022

Cancers

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A stem-cell theory of cancer predicates that not only does the cell affect the niche, the niche also affects the cell. It implicates that even though genetic makeup may be supreme, cellular context is key. When we attempt to solve the mystery of a long cancer-free life, perhaps we need to search no further than the genetics and epigenetics of the naked mole-rat. When we try to unlock the secrets in the longevity and quality of life, perhaps we need to look no further than the lifestyle and habits of the super centenarians. We speculate that people with Down’s syndrome and progeria age faster but have fewer cancers, because they are depleted of stem cells, and, as a consequence, have fewer opportunities for stem cell defects that could predispose them to the development of cancer. We contemplate whether these incredible experiments of nature may provide irrefutable evidence that cancer is a stem-cell disease—fewer aberrant stem cells, fewer cancers; no defective stem cells, no cancer. In this perspective, we investigate a stem-cell origin of aging and cancer. We elaborate an intriguing inverse relationship between longevity and malignancy in the naked mole-rat, in Down’s syndrome, and in progeria. We postulate that stem-cell pools and stemness factors may affect aging and dictate cancer. We propose that a healthy microbiome may protect and preserve stem cell reserves and provide meaningful antiaging effects and anticancer benefits.

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“…Cell fates are regulated by a variety of receptors expressed on the cell membrane or in the cytosol. [ 1–3 ] Among the receptors, transmembrane receptors receive the specific ligands in the extracellular domain, undergo conformational changes, and activate downstream signaling pathways to control cell fates. [ 4–6 ] Thus, transmembrane receptors play important roles in responding to extracellular signals to adapt cells to extracellular environmental changes through intracellular signal transduction.…”

Section: Introductionmentioning

confidence: 99%

“…Cell fates are regulated by a variety of receptors expressed on the cell membrane or in the cytosol. [1][2][3] Among the receptors, transmembrane receptors receive the specific ligands in the extracellular domain, undergo conformational changes, and activate downstream signaling ABBREVIATIONS: aiCAR, apoptosis-inducing CAR; CAR, chimeric antigen receptor; cfiCAR, cell fate-inducing CAR; DNP, dinitrophenol; FL, fluorescein; IL-3, interleukin-3; IRES, internal ribosomal entry site; JAK, Janus kinase; JNK, c-Jun N-terminal kinase; piCAR, proliferation-inducing CAR; RANK, receptor activator of nuclear factor κB; scFv, single-chain Fv; STAT, signal transducers and activators of transcription pathways to control cell fates. [4][5][6] Thus, transmembrane receptors play important roles in responding to extracellular signals to adapt cells to extracellular environmental changes through intracellular signal transduction.…”

Section: Introductionmentioning

confidence: 99%

Cell fate‐inducing CARs orthogonally control multiple signaling pathways

Nakajima

Nakabayashi

Kawahara

2022

Biotechnology Journal

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While chimeric antigen receptor (CAR) has been clinically applied in T cell‐mediated cancer therapy, CARs that combinatorially control general cell fates have yet to be practical. In this study, we aim to control multiple cell fates simultaneously by combinatorial activation of multiple cell fate‐inducing CARs (cfiCARs). We construct CARs that transduce two different signals using two antigen‐specific CARs. The CARs are co‐expressed pairwise on the cell surface to let the two antigens act alone or in combination, thus arbitrarily control multiple cell fates. We utilize signaling domains derived from natural receptors (gp130, receptor activator of nuclear factor κB [RANK], c‐Fms, and Fas) and tyrosine motif‐engineered artificial signaling domains that preferentially recruit target signaling molecules (Shc and STAT3) for inducing specific cell fates by the CARs. Consequently, the signaling molecules downstream of these receptors are activated orthogonally by the corresponding CAR‐specific antigens. Furthermore, two completely different cell fates (proliferation and death) are successfully controlled simultaneously or sequentially over time by adding the two antigens, demonstrating proliferation‐ and apoptosis‐inducing CARs (piCAR and aiCAR). Thus, cfiCARs will be applied for delineating the basic principle of cell fate control and improving the efficacy of cell therapy, which would significantly contribute to cell biology and future medicine.

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Regulation of Intestinal Stem Cell Stemness by the Aryl Hydrocarbon Receptor and Its Ligands

Cited by 11 publications

References 116 publications

A Novel Probiotic Bacillus subtilis Strain Confers Cytoprotection to Host Pig Intestinal Epithelial Cells during Enterotoxic Escherichia coli Infection

A Novel Probiotic Bacillus subtilis Strain Confers Cytoprotection to Host Pig Intestinal Epithelial Cells during Enterotoxic Escherichia coli Infection

Stem-Cell Theory of Cancer: Implications for Antiaging and Anticancer Strategies

Cell fate‐inducing CARs orthogonally control multiple signaling pathways

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