The Cleared Mammary Fat Pad Transplantation Assay for Mammary Epithelial Organogenesis

Cleared mammary fat pad (MFP) transplantation has been a standard technique for studies of mammary development and cancer for several decades. The mammary gland is comprised of several fundamental components: The epithelial compartment contains basal/myoepithelial cells and luminal cells, and the stromal compartment (called the MFP) contains adipocytes, smooth muscle cells, fibroblasts, and immune cells. In 3- to 4-wk-old female mice, the mammary epithelium is concentrated very close to the nipple and has not yet grown beyond the mammary lymph node to penetrate the bulk of the MFP. This developmental feature provides an anatomical fixed point, and enables one to cut away the portion of the MFP from the nipple to the lymph node, leaving behind the majority of the MFP free of epithelium. The “cleared” MFP can serve as a supportive native micro-environment fully sufficient for the organogenesis of injected donor epithelium. Normal mammary epithelial donor cells will produce histologically and functionally normal mammary ductal epithelium several weeks posttransplant, with the exception that the ducts will not be connected to the nipple. The assay described here provides a powerful platform for assessing the developmental and tumorigenic potential of engineered cells of interest

Profiling human breast epithelial cells using single cell RNA sequencing identifies cell diversity.

Breast cancer arises from breast epithelial cells that acquire genetic alterations leading to subsequent loss of tissue homeostasis. Several distinct epithelial subpopulations have been proposed, but complete understanding of the spectrum of heterogeneity and differentiation hierarchy in the human breast remains elusive. Here, we use single-cell mRNA sequencing (scRNAseq) to profile the transcriptomes of 25,790 primary human breast epithelial cells isolated from reduction mammoplasties of seven individuals. Unbiased clustering analysis reveals the existence of three distinct epithelial cell populations, one basal and two luminal cell types, which we identify as secretory L1- and hormone-responsive L2-type cells. Pseudotemporal reconstruction of differentiation trajectories produces one continuous lineage hierarchy that closely connects the basal lineage to the two differentiated luminal branches. Our comprehensive cell atlas provides insights into the cellular blueprint of the human breast epithelium and will form the foundation to understand how the system goes awry during breast cancer

The Vehicle, Fall 1982

Vol. 24, No. 1 Table of Contents Winter SurveillanceB.L. Davidsonpage 3 The InvitationBecky Lawsonpage 4 Check In, Check OutSteve Sandstrompage 4 On The Front Porch StepKeila Tooleypage 5 Old Greek ManDevon Flesorpage 5 Exotic PassionsBecky Lawsonpage 6 PhotographLisa Owenspage 7 Beyond The ThornsBrook Wilsonpage 8 Ritual Of HeatB.L. Davidsonpage 11 The GamerBecky Lawsonpage 12 It\u27s OverKeila Tooleypage 13 DreamJohn Stockmanpage 14 Silver DollarGina J. Grillopage 15 The DancerJessica Lewispage 16 Snapshots Of Rural IllinoisIsabel M. Parrottpage 16 The Last SeasonTheresa Whitesidepage 17 DrawingKaren Haneypage 17 Rotary LuncheonJessica Lewispage 18 Factory TourLinda Fraembspage 18 The ImmigrantsD.L. Lewispage 19 At Shedd AquariumLinda Fraembspage 20 The GuardianBecky Lewispage 20 Digital LifeEverett Tackettpage 21 Full ServiceScott Graypage 22 Dust ShowLinda A. Brownpage 23 At SixMaureen Foertschpage 24 DrawingJean Imherrpage 24 ReflectionMaggie Kennedypage 25 Cat DefiningBecky Lawsonpage 26 Ode To An Unread NewspaperLinda Fraembspage 26 GumSteve Sandstrompage 27 The DancerChrystal Clarkpage 27 PoemD.L. Lewispage 28 For LucyStacey Flanniganpage 29 An AbortionDevon Flesorpage 29 ReveriesKeila Tooleypage 30 Sunday Morning After Tequila With LemonScott Graypage 33 Staging A Living Jewel BoxMichelle Mitchellpage 34 The Other WomanStacey Flanniganpage 35 The Natural LookMichelle Mitchellpage 35 Poem To A Girl Named SandalsJohn Stockmanpage 36 PhotographLisa Owenspage 37 In The Balcony Of The Bijou On A Saturday NightScott Graypage 38 The Canadian Soccer PlayerBecky Lawsonpage 39 The HealingJohn Stockmanpage 39 AppeasedDevon Flesorpage 40 CodaJohn Stockmanpage 40https://thekeep.eiu.edu/vehicle/1040/thumbnail.jp

A Spatially Resolved Single-Cell Genomic Atlas of the Adult Human Breast

The adult human breast is comprised of an intricate network of epithelial ducts and lobules that are embedded in connective and adipose tissue1-3. Although most previous studies have focused on the breast epithelial system4-6, many of the non-epithelial cell types remain understudied. Here we constructed the comprehensive Human Breast Cell Atlas (HBCA) at single-cell and spatial resolution. Our single-cell transcriptomics study profiled 714,331 cells from 126 women, and 117,346 nuclei from 20 women, identifying 12 major cell types and 58 biological cell states. These data reveal abundant perivascular, endothelial and immune cell populations, and highly diverse luminal epithelial cell states. Spatial mapping using four different technologies revealed an unexpectedly rich ecosystem of tissue-resident immune cells, as well as distinct molecular differences between ductal and lobular regions. Collectively, these data provide a reference of the adult normal breast tissue for studying mammary biology and diseases such as breast cancer

The Cleared Mammary Fat Pad Transplantation Assay for Mammary Epithelial Organogenesis.

Cleared mammary fat pad (MFP) transplantation has been a standard technique for studies of mammary development and cancer for several decades. The mammary gland is comprised of several fundamental components: The epithelial compartment contains basal/myoepithelial cells and luminal cells, and the stromal compartment (called the MFP) contains adipocytes, smooth muscle cells, fibroblasts, and immune cells. In 3- to 4-wk-old female mice, the mammary epithelium is concentrated very close to the nipple and has not yet grown beyond the mammary lymph node to penetrate the bulk of the MFP. This developmental feature provides an anatomical fixed point, and enables one to cut away the portion of the MFP from the nipple to the lymph node, leaving behind the majority of the MFP free of epithelium. The "cleared" MFP can serve as a supportive native microenvironment fully sufficient for the organogenesis of injected donor epithelium. Normal mammary epithelial donor cells will produce histologically and functionally normal mammary ductal epithelium several weeks posttransplant, with the exception that the ducts will not be connected to the nipple. The assay described here provides a powerful platform for assessing the developmental and tumorigenic potential of engineered cells of interest

The Cleared Mammary Fat Pad Transplantation Assay for Mammary Epithelial Organogenesis.

Cleared mammary fat pad (MFP) transplantation has been a standard technique for studies of mammary development and cancer for several decades. The mammary gland is comprised of several fundamental components: The epithelial compartment contains basal/myoepithelial cells and luminal cells, and the stromal compartment (called the MFP) contains adipocytes, smooth muscle cells, fibroblasts, and immune cells. In 3- to 4-wk-old female mice, the mammary epithelium is concentrated very close to the nipple and has not yet grown beyond the mammary lymph node to penetrate the bulk of the MFP. This developmental feature provides an anatomical fixed point, and enables one to cut away the portion of the MFP from the nipple to the lymph node, leaving behind the majority of the MFP free of epithelium. The "cleared" MFP can serve as a supportive native microenvironment fully sufficient for the organogenesis of injected donor epithelium. Normal mammary epithelial donor cells will produce histologically and functionally normal mammary ductal epithelium several weeks posttransplant, with the exception that the ducts will not be connected to the nipple. The assay described here provides a powerful platform for assessing the developmental and tumorigenic potential of engineered cells of interest

Author Correction: Automated segmentation and tracking of mitochondria in live-cell time-lapse images

In the version of this article originally published, there was an omission in the Acknowledgements section. The text “This work was also supported in part by American Cancer Society Institutional Research Grant 134045-IRG-19-145-16-IRG” has now been added to the HTML and PDF versions of the article

Tumour heterogeneity and metastasis at single-cell resolution

Tumours comprise a heterogeneous collection of cells with distinct genetic and phenotypic properties that can differentially promote progression, metastasis and drug resistance. Emerging single-cell technologies provide a new opportunity to profile individual cells within tumours and investigate what roles they play in these processes. This Review discusses key technological considerations for single-cell studies in cancer, new findings using single-cell technologies and critical open questions for future applications