Julie Sneddon, PhD

Asst Professor In Residence
Diabetes Center
+1 415 502-3380

The primary focus of our laboratory is pancreatic development and Type I Diabetes, and we employ the tools of stem cell biology, developmental biology, genomics, and tissue engineering.

One key goal of regenerative biology is the generation of functional cells to replace those missing or lost in disease. These cells of defined function, however, such as insulin-producing pancreatic beta cells, exist in animals only as part of a larger organ composed of a complex and incompletely defined mixture of cells. The interactions among the cells in this mixture are critical for the function of the individual cell types. For example, beta cells isolated from the pancreas and transferred to culture rapidly lose their ability to release insulin in response to glucose. Furthermore, widespread ablation of non-epithelial cells in the pancreas significantly compromises beta cell production and function. Thus far, however, the identities and specific functions of these non-epithelial cell types remain largely unknown.

In our laboratory, we aim to understand the underlying biology of the cellular microenvironment, including the cellular diversity and lineage relationships of the non-epithelial compartment of the pancreas in the context of organogenesis, adult organ function, and disease. A deeper understanding of the identity and biology of non-epithelial cell types within the pancreas and other organs will enable a more directed and efficient attempt at replacing lost cell and organ function via regenerative medicine.

Primary Thematic Area: 
Developmental & Stem Cell Biology
Secondary Thematic Area: 
Tissue / Organ Biology & Endocrinology
Research Summary: 
The niche in pancreatic development and disease



Defining epithelial cell dynamics and lineage relationships in the developing lacrimal gland.

Development (Cambridge, England)

Farmer DT, Nathan S, Finley JK, Shengyang Yu K, Emmerson E, Byrnes LE, Sneddon JB, McManus MT, Tward AD, Knox SM

Fasting-Mimicking Diet Promotes Ngn3-Driven ß-Cell Regeneration to Reverse Diabetes.


Cheng CW, Villani V, Buono R, Wei M, Kumar S, Yilmaz OH, Cohen P, Sneddon JB, Perin L, Longo VD

Brief report: VGLL4 is a novel regulator of survival in human embryonic stem cells.

Stem cells (Dayton, Ohio)

Tajonar A, Maehr R, Hu G, Sneddon JB, Rivera-Feliciano J, Cohen DE, Elledge SJ, Melton DA

The contribution of niche-derived factors to the regulation of cancer cells.

Methods in molecular biology (Clifton, N.J.)

Sneddon JB