Serena Dovey scite author profile

Objective Determine the molecular characteristics of human spermatogonia and optimize methods to enrich spermatogonial stem cells (SSCs). Design Laboratory study using human tissues Setting Research institute Patient(s)/Animal(s) Normal adult human testicular tissue. Interventions Human testicular tissue was fixed or digested with enzymes to produce a cell suspension. Human testis cells were fractionated by FACS and MACS. Main Outcome Measure(s) Immunostaining for selected markers, human-to-nude mouse xenotransplantation assay. Results Immunohistochemistry co-staining revealed the relative expression patterns of SALL4, UTF1, ZBTB16, UCHL1 and ENO2 in human undifferentiated spermatogonia as well as the extent of overlap with the differentiation marker, KIT. Whole mount analyses revealed that human undifferentiated spermatogonia (UCHL1+) were typically arranged in clones of 1–4 cells while differentiated spermatogonia (KIT+) were typically arranged in clones of 8 or more cells. The ratio of undifferentiated to differentiated spermatogonia is greater in humans than in rodents. SSC colonizing activity was enriched in the THY1dim and ITGA6+ fractions of human testes sorted by FACS. ITGA6 was effective for sorting human SSCs by MACS; THY1 and EPCAM were not. Conclusions Human spermatogonial differentiation correlates with increased clone size and onset of KIT expression, similar to rodents. The undifferentiated to differentiated developmental dynamics in human spermatogonia is different than rodents. THY1, ITGA6 and EPCAM can be used to enrich human SSC colonizing activity by FACS, but only ITGA6 is amenable to high throughput sorting by MACS.

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Eliminating malignant contamination from therapeutic human spermatogonial stem cells

Dovey¹,

Valli²,

Hermann³

et al. 2013

J. Clin. Invest.

125

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Spermatogonial stem cell (SSC) transplantation has been shown to restore fertility in several species and may have application for treating some cases of male infertility (e.g., secondary to gonadotoxic therapy for cancer). To ensure safety of this fertility preservation strategy, methods are needed to isolate and enrich SSCs from human testis cell suspensions and also remove malignant contamination. We used flow cytometry to characterize cell surface antigen expression on human testicular cells and leukemic cells (MOLT-4 and TF-1a). We demonstrated via FACS that EpCAM is expressed by human spermatogonia but not MOLT-4 cells. In contrast, HLA-ABC and CD49e marked >95% of MOLT-4 cells but were not expressed on human spermatogonia. A multiparameter sort of MOLT-4-contaminated human testicular cell suspensions was performed to isolate EpCAM + /HLA-ABC -/CD49e -(putative spermatogonia) and EpCAM -/HLA-ABC + /CD49e + (putative MOLT-4) cell fractions. The EpCAM + /HLA-ABC -/CD49e -fraction was enriched for spermatogonial colonizing activity and did not form tumors following human-to-nude mouse xenotransplantation. The EpCAM -/HLA-ABC + / CD49e + fraction produced tumors following xenotransplantation. This approach could be generalized with slight modification to also remove contaminating TF-1a leukemia cells. Thus, FACS provides a method to isolate and enrich human spermatogonia and remove malignant contamination by exploiting differences in cell surface antigen expression.

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Endometriosis and the Adolescent

Dovey

Sanfilippo

2010

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The majority of women with endometriosis report symptoms starting in adolescence, yet endometriosis is often a delayed diagnosis in this patient population. Given that endometriosis is felt to be a progressive disease with increasing morbidities over time, such as structural defects and infertility, being more aggressive with pursuing the diagnosis is warranted. Once the diagnosis of endometriosis is made, various medical and surgical treatment modalities are available, and this article will review the most current treatment recommendations.

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Serena Dovey

Fluorescence- and magnetic-activated cell sorting strategies to isolate and enrich human spermatogonial stem cells

Eliminating malignant contamination from therapeutic human spermatogonial stem cells

Endometriosis and the Adolescent

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