Aldehyde Dehydrogenase, a Marker of Normal and Malignant Stem Cells, Typifies Mesenchymal Progenitors in Perivascular Niches

ZIC1 transcription factor overexpression in segmental bone defects is associated with brown adipogenic and osteogenic differentiation

Transcriptional factor regulation is central to the lineage commitment of stem/ progenitor cells. ZIC1 (ZIC family member 1) is a C2H2-type zinc finger transcription factor expressed during development, brown fat, and certain cancers. Previously, we observed that overexpression of ZIC1 induces osteogenic differentiation at the expense of white adipogenic differentiation. In the present study, the feasibility of ZIC1 overexpressed human progenitor cells in critical-sized bone defects was studied. To achieve this, human adipose stem/stromal cells with other without lentiviral ZIC1 overexpression were implanted in a femoral segmental defect model in NOD-SCIDγ mice. Results showed that ZIC1 overexpressed cells induced osteogenic differentiation by protein markers in a critical-sized femoral segment defect compared to empty lentiviral control, although bone union was not observed. The immunohistochemical evaluation showed that implantation of ZIC1 overexpression cells led to an increase in osteoblast antigen expression (RUNX2, OCN), activation of Hedgehog signaling (Patched1), and an increase in brown adipogenesis markers (ZIC1, EBF2). In contrast, no change in bone defect-associated vasculature was observed (CD31, Endomucin). Together, these data suggest that overexpression of the ZIC1 transcription factor in progenitor cells is associated with differentiation towards osteoblastic and brown adipogenic cell fates.

ALDH1A1 in breast cancer: A prospective target to overcome therapy resistance (Review)

The expression of cytosolic aldehyde dehydrogenases (ALDHs), which mediate the last step in the pathway of the synthesis of all-trans retinoic acid, is dysregulated in various types of human cancer, and has been associated with the development of cancer stem cells (CSCs) in solid tumors and hematological malignancies. CSCs are considered a minor fraction of cancer cells with the capacity to initiate neoplastic tumors. ALDH1A1 serves a crucial role in the emergence of the CSC phenotype, induces the malignant behavior of cancer cells and promotes treatment resistance. Notably, ALDH1A1-induced therapy resistance is not exclusive to just one group of drugs, but affects diverse types of drugs that use different mechanisms to kill cells. This diversity of drug resistance-inducing effects is associated with the stemness-supporting functions of ALDH1A1. The inhibition of ALDH1A1 activity using chemicals or the depletion of ALDH1A1 via genetic approaches, such as the use of small interfering RNA, can overcome diverse pathways of therapy resistance. In the context of breast cancer, it is critical that only a fraction of malignant cells are expected to manifest stem-like features, which include increased expression of ALDH1A1. From the angle of disease prognosis, the extent of the association of ALDH1A1 with increased malignant behavior and drug resistance remains to be determined through the application of cutting-edge methods that detect the expression of tracked biomarkers within tumors.

Dynamic P-glycoprotein expression in early and late memory states of human CD8 + T cells and the protective role of ruxolitinib

ABCB1/MDR-1/P-glycoprotein (Pgp) is an ABC transporter responsible for cancer cell multi-drug resistance. It is expressed in cytotoxic T lymphocytes (CTL). Eliminating sensitive cancer cells during high-dose chemotherapy can also damage immune cells. Our study aimed to assess which maturing human CD8 + CTL memory subsets may be affected based on their Pgp protein expression. In an in vitro CTL differentiation model system, we tracked the maturation of naive, effector, and memory cells and the expression of Pgp. This system involves co-culturing blood lymphocytes with proliferation-inhibited JY antigen-presenting B-lymphoblastoid cells expressing HLA-I A2. These JY-primed maturing CTLs were TCR-activated using beads, and the effect of the maturation-modifying JAK1/2 inhibitor ruxolitinib was examined. Multidimensional analysis identified six major CTL subsets: naive, young memory (Tym), stem cell memory (Tscm), central memory (Tcm), effector memory (Tem), and effectors (Te). These subsets were further divided into thirteen specific subsets: TymCD127 + , TymCD127-, Tscm, TcmCD95 + , TcmCD73 +CD95 + , TcmCD95+CD127 + , TcmPD1 + , TemCD95 + , TemraCD127 + , TemraCD127-, TeCD95 + , and TeCD73 +CD95 + . Pgp expression was detectable in naïve cells and dynamically changed across the thirteen identified subsets. Increased Pgp was detected in young memory T cells and in Tscm, TcmCD95 + , and TcmPD1 + human CTL subsets. Unlike other transiently appearing memory cells, the number of cells in these core Pgp-expressing memory subsets stabilized by the end of the contraction phase. Ruxolitinib treatment downregulated effector T-cell polarization while upregulating small memory subsets expressing Pgp. In conclusion, activation increased Pgp expression, whereas ruxolitinib treatment preserved small early and late memory subset core that primarily expressed Pgp.

Functional single-cell analyses of mesenchymal stromal cell proliferation and differentiation using ALDH-activity and mitochondrial ROS content

BASKGROUND

Previous research has unveiled a stem cell-like transcriptome enrichment in the aldehyde dehydrogenase-expressing (ALDHhigh) mesenchymal stromal cell (MStroC) fraction. However, considering the heterogeneity of MStroCs, with only a fraction of them presenting bona fide stem cells (MSCs), the actual potency of ALDH as an MSC-specific selection marker remains an issue.

METHODS

To address this, the proliferative and differentiation potential of individual ALDHhigh and ALDHlow MStroCs incubated at low oxygen concentrations, estimated to mimic stem cell niches (0.1% O2), were assayed using single-cell clonal analysis, compared to standard conditions (20% O2).

RESULTS

We confirm that a high proliferative capacity and multi-potent MSCs are enriched in the ALDHhigh MStroC population, especially when cells are cultured at 0.1% O2. Measurements of reduced/oxidized glutathione and mitochondrial superoxide anions with MitoSoX (MSX) indicate that this advantage induced by low oxygen is related to a decrease in the oxidative and reactive oxygen species (ROS) levels in the stem cell metabolic setup. However, ALDH expression is neither specific nor exclusive to MSCs, as high proliferative capacity and multi-potent cells were also found in the ALDHlow fraction. Furthermore, single-cell assays performed after combined cell sorting based on ALDH and MSX showed that the MSXlow MStroC population is enriched in stem/progenitor cells in all conditions, irrespective of ALDH expression or culture oxygen concentration. Importantly, the ALDHhighMSXlow MStroC fraction exposed to 0.1% O2 was almost exclusively composed of genuine MSCs. In contrast, neither progenitors nor stem cells (with a complete absence of colony-forming ability) were detected in the MSXhigh fraction, which exclusively resides in the ALDHlow MStroC population.

CONCLUSION

Our study reveals that ALDH expression is not exclusively associated with MSCs. However, cell sorting using combined ALDH expression and ROS content can be utilized to exclude MStroCs lacking stem/progenitor cell properties.

Unveiling heterogeneity in MSCs: exploring marker-based strategies for defining MSC subpopulations

Mesenchymal stem/stromal cells (MSCs) represent a heterogeneous cell population distributed throughout various tissues, demonstrating remarkable adaptability to microenvironmental cues and holding immense promise for disease treatment. However, the inherent diversity within MSCs often leads to variability in therapeutic outcomes, posing challenges for clinical applications. To address this heterogeneity, purification of MSC subpopulations through marker-based isolation has emerged as a promising approach to ensure consistent therapeutic efficacy. In this review, we discussed the reported markers of MSCs, encompassing those developed through candidate marker strategies and high-throughput approaches, with the aim of explore viable strategies for addressing the heterogeneity of MSCs and illuminate prospective research directions in this field.