Cytochemistry of marrow and extramedullary adipocytes in monolayer cultures

Standardised Nomenclature, Abbreviations, and Units for the Study of Bone Marrow Adiposity: Report of the Nomenclature Working Group of the International Bone Marrow Adiposity Society

Research into bone marrow adiposity (BMA) has expanded greatly since the late 1990s, leading to development of new methods for the study of bone marrow adipocytes. Simultaneously, research fields interested in BMA have diversified substantially. This increasing interest is revealing fundamental new knowledge of BMA; however, it has also led to a highly variable nomenclature that makes it difficult to interpret and compare results from different studies. A consensus on BMA nomenclature has therefore become indispensable. This article addresses this critical need for standardised terminology and consistent reporting of parameters related to BMA research. The International Bone Marrow Adiposity Society (BMAS) was formed in 2017 to consolidate the growing scientific community interested in BMA. To address the BMA nomenclature challenge, BMAS members from diverse fields established a working group (WG). Based on their broad expertise, the WG first reviewed the existing, unsystematic nomenclature and identified terms, and concepts requiring further discussion. They thereby identified and defined 8 broad concepts and methods central to BMA research. Notably, these had been described using 519 unique combinations of term, abbreviation and unit, many of which were overlapping or redundant. On this foundation a second consensus was reached, with each term classified as "to use" or "not to use." As a result, the WG reached a consensus to craft recommendations for 26 terms related to concepts and methods in BMA research. This was approved by the Scientific Board and Executive Board of BMAS and is the basis for the present recommendations for a formal BMA nomenclature. As an example, several terms or abbreviations have been used to represent "bone marrow adipocytes," including BMAds, BM-As, and BMAs. The WG decided that BMA should refer to "bone marrow adiposity"; that BM-A is too similar to BMA; and noted that "Ad" has previously been recommended to refer to adipocytes. Thus, it was recommended to use BMAds to represent bone marrow adipocytes. In conclusion, the standard nomenclature proposed in this article should be followed for all communications of results related to BMA. This will allow for better interactions both inside and outside of this emerging scientific community.

Characterizing medullary and human mesenchymal stem cell-derived adipocytes

Throughout postnatal years, medullary adipocytes (MAs) increase in both number and size; however, knowledge of these cells pales in comparison to that of other adipocyte depots. It is widely hypothesized that MAs derive from multipotent progenitor cells of the bone marrow, such as human mesenchymal stem cells (hMSCs). Nevertheless, there is a paucity of comparative, molecular-level studies in support of this hypothesis. In the present article, RTPCR was used to examine similarities and differences in gene expression among MAs, hMSC-derived adipocytes, and subcutaneous adipocytes. While little or no message for lineage-specific markers was detected in undifferentiated hMSCs, the data demonstrate that hMSC-derived adipocytes, MAs, and subcutaneous adipocytes commonly express mRNA encoding for adipogenic transcription factors (PPARgamma2, C/EBPalpha, and SREBP1), adipokines (adipsin, leptin, APM1, and angiotensinogen), and lipid-metabolizing agents (aP2 and LPL), among other genes. None of the cell populations examined expressed a detectable level of the brown fat marker UCP1. This suggests highly similar gene expression between human subcutaneous and MAs, not previously substantiated to this degree. Coupled with the hMSC-derived adipocyte analysis, these data provide a framework ultimately for characterizing MAs and identifying their origin and function.

In vitro effect of copper on the stromal cells of bone marrow in rats

The effect of copper in form of copper sulphate (CuSO4 x 5 H2O) was studied in the bone marrow cells of rats of Wistar strain in an in vitro culture. Evident differences between tissue cultures of the bone marrow cells were observed between the control and experimental groups. In the experimental group, the CFU-F colonies appeared as early as in 3rd day while in the control group in 5th day. Loosely arranged fibroblasts, macrophages and adipocytes also showed quantitative differences between groups. An increase in mean corpuscular hemoglobin (MCH) was also found in peripheral blood of experimental animals.

In vitro effect of copper on the stromal cells of bone marrow in rats

The effect of copper in form of copper sulphate (CuSO4 x 5 H2O) was studied in the bone marrow cells of rats of Wistar strain in an in vitro culture. Evident differences between tissue cultures of the bone marrow cells were observed between the control and experimental groups. In the experimental group, the CFU-F colonies appeared as early as in 3rd day while in the control group in 5th day. Loosely arranged fibroblasts, macrophages and adipocytes also showed quantitative differences between groups. An increase in mean corpuscular hemoglobin (MCH) was also found in peripheral blood of experimental animals.

3T3-L1 adipocytes promote the growth of mammary epithelium

Murine mammary epithelium grows in association with predominantly adipocyte stroma in vivo. To investigate potential growth-promoting effects of adipocytes on mammary epithelium, we developed a co-culture system of mammary epithelium and adipocytes by taking advantage of the 3T3-L1 cell line. These cells undergo adipocyte differentiation when the culture reaches confluence and growth ceases. Mid-pregnant murine mammary epithelium was plated on lethally irradiated feeder layers of 3T3-L1 adipocytes, undifferentiated 3T3-L1 cells, 3T3-C2 fibroblasts (a subclone of 3T3 cells that does not undergo adipocyte differentiation), or tissue culture plastic. Mammary epithelial colony size on adipocyte feeder layers was 2-fold larger than colonies on 3T3-C2 cells and 4-fold larger than colonies on tissue culture plastic. Measurement of tritiated thymidine [3H]TdR incorporation and labelling index in mammary cells was significantly higher on adipocytes than on other feeder layers or plastic. There was a 6-fold increase in mammary cell number after 5 days in culture when mammary epithelium was plated on substrate-attached material ('extracellular matrix') derived from 3T3-L1 cells and a 4-fold increase in cell number when plated on plastic in conditioned medium derived from 3T3-L1 adipocytes compared with growth on plastic in unconditioned medium. We conclude that interaction of mammary epithelium with adipocytes results in a marked increase in proliferation of mammary epithelium and that extracellular components may mediate this effect.

Modulation of insulin receptors in cultured adipocytes as studied by a latex minibead probe

In monolayer cultures, adipocytes transform into spindle-shaped cells, morphologically similar to buccal submucosa-derived fibroblasts. Insulin receptors were searched for on the surface of these cells using a visual probe which consisted of latex minibeads covalently bound to insulin. Adipocyte-derived cells showed clusters of insulin receptors not observed on the surface of fibroblasts derived from submucosa. The finding indicates that despite their fibroblastic morphology and the loss of their lipid inclusions in culture, these adipocytes do not lose their state of differentiation and therefore should be considered lipid-depleted adipocytes rather than fibroblasts. Moreover, quantitative analysis demonstrated a significant increase in the number of insulin receptors in cultured cells as compared to isolated but not cultured cells. This may reflect the low concentration of insulin in the culture medium as compared to the in vivo environment and indicates that the cells are subject to regulatory mechanisms of adipocytes.

Morphological studies on long-term culture of marrow cells: characterization of the adherent stromal cells and their interactions in maintaining the proliferation of hemopoietic stem cells

In long-term cultures of bone marrow, the adherent stromal cells provide support for the proliferation and maintenance of hemopoietic stem cells. These stromal cells and their interactions were characterized by means of scanning (SEM) and transmission (TEM) electron microscopy in correlation with functional studies. Cultures were initiated by establishing the adherent stromal layer as a "soil" which was then "seeded" after 3 weeks by the addition of another marrow-cell suspension. Clonal assay of the supernatant demonstrated the continuous proliferation of the hemopoietic stem cell. The stroma essentially consisted of two cell types, macrophages and epithelioid cells. Macrophages were smaller, 10-15 microns, phagocytosed latex and carbon particles, and contained lysosomes. Their surface did not stain with polycationic ferritin (PCF). Epithelioid cells were much larger, more than 100 microns; contained numerous thin, elongated mitochondria; did not phagocytose latex particles; but did display strong surface staining with PCF. The appearance of epithelioid cells in TEM depended on their state of development and whether the section was parallel or perpendicular to the substratum. Epithelioid cells displayed a maturational spectrum, at two ends of which were synthetic and storage phases. In the synthetic phase, the cell contained numerous profiles of rough endoplasmic reticulum, and in the storage phase, numerous storage granules. These two phases were best appreciated in sections perpendicular to the substratum, demonstrating synthetic cells on top settling over the substratum upon maturation into the storage cells. Both macrophages and epithelioid cells contained fat globules which increased in number and size with the addition of hydrocortisone to the culture medium. A distinct fat-cell type, as has been claimed, was not found in this study. Granulopoiesis was observed in the culture system in the absence of colony-stimulating activity in the supernatant, suggesting direct cellular interaction or short-range factors in the induction of granulopoiesis. Widespread cellular interactions were noted between macrophages and epithelioid cells, the latter often completely embracing the former and both extending cytoplasmic processes toward each other. This is reminiscent of the cooperative interaction of endoderm and mesoderm in chick embryo hemopoiesis and may be necessary for the maintenance of stem cells in these cultures.

Characterization of bone marrow stromal cells in suspension and monolayer cultures

Aspirated marrow fragments from healthy adult baboons were cultured in a simple liquid suspension tissue culture system. During the incubation period, haemopoietic cells were discharged from the fragments and settled to the floor of the culture vessels, thus allowing a separation of marrow stromal elements, retained within the fragments. Cells associated with the marrow stroma in vitro were of four main types: adipocytes, macrophages, plasma cells and unidentified lipid-laden cells related to fibroblasts. These last cells were capable of DNA synthesis in vitro, and were morphologically and functionally distinguishable from typical marrow macrophages. Macrophages were characterized by their phagocytic properties. Plasma cells were capable of prolonged survival and immunoglobulin output in vitrol. In monolayer cultures of disaggregated fragment cell suspensions, the lipid-laden stromal cells rapidly assumed fibroblast-like morphology. Fibroblastic proliferation to confluent monolayers was seen within a few days. Plasma cells reorientated themselves around these cells to form rosettes, and bridge communicatons between the two cell types were seen frequently. Plasma cell immunoglobulin output rate per cell appeared to be potentiated by this association.