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View article: Phase 3 clinical trials evaluating poly(ADP-ribose) polymerase inhibition plus immunotherapy for first-line treatment of advanced ovarian cancer
Phase 3 clinical trials evaluating poly(ADP-ribose) polymerase inhibition plus immunotherapy for first-line treatment of advanced ovarian cancer Open
Background Ovarian cancer is the second deadliest gynecologic malignancy globally. The current standard of care first-line therapy for newly diagnosed advanced epithelial ovarian cancer is surgery and platinum-based chemotherapy (±bevacizu…
View article: Genital graft versus host disease in women after allogeneic hematopoietic stem cell transplantation – a single center experience
Genital graft versus host disease in women after allogeneic hematopoietic stem cell transplantation – a single center experience Open
Chronic Graft-versus-host disease (GVHD) is a major complication of allogeneic hematopoietic stem cell transplantation (HSCT), affecting the female genital tract in 25–66% of the patients. This condition, referred to as Genital GVHD is an …
View article: Novel immunotherapy for multiple solid cancers using an Anti-HVEM blocking monoclonal antibody
Novel immunotherapy for multiple solid cancers using an Anti-HVEM blocking monoclonal antibody Open
INTRODUCTION Immune checkpoint inhibitors (ICIs) have revolutionized cancer treatment, yet their efficacy remains limited. Therefore, there is a clear need for new anti-tumor agents. HVEM (Herpes Virus Entry Mediator) plays a regulatory ro…
View article: Clonally related tumor-reactive memory B cells reside in primary tumors and lymph nodes of ovarian cancer patients
Clonally related tumor-reactive memory B cells reside in primary tumors and lymph nodes of ovarian cancer patients Open
The presence of B cells in tumors is correlated with a positive prognosis in several types of cancers, including high-grade serous ovarian cancer (HGSOC)1–4. These B cells give rise to plasma cells (PCs) that originate from germinal center…
View article: Enhancing uterine receptivity for embryo implantation through controlled collagenase intervention
Enhancing uterine receptivity for embryo implantation through controlled collagenase intervention Open
Ineffective endometrial matrix remodeling, a key factor in infertility, impedes embryo implantation in the uterine wall. Our study reveals the cellular and molecular impact of human collagenase-1 administration in mouse uteri, demonstratin…
View article: Supplementary Figure 10 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 10 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 10
View article: Data from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Data from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Cancers that are poorly immune infiltrated pose a substantial challenge, with current immunotherapies yielding limited clinical success. Stem-like memory T cells (TSCM) have been identified as a subgroup of T cells that possess strong prol…
View article: Supplementary Figure 7 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 7 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 7
View article: Supplementary Figure 7 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 7 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 7
View article: Supplementary Tables from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Tables from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Tables 1-8
View article: Supplementary Figure 10 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 10 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 10
View article: Supplementary Figure 3 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 3 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 3
View article: Supplementary Figure 4 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 4 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 4
View article: Supplementary Figure 8 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 8 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 8
View article: Supplementary Figure 1 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 1 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 1
View article: Supplementary Figure 4 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 4 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 4
View article: Supplementary Figure 2 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 2 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 2
View article: Data from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Data from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Cancers that are poorly immune infiltrated pose a substantial challenge, with current immunotherapies yielding limited clinical success. Stem-like memory T cells (TSCM) have been identified as a subgroup of T cells that possess strong prol…
View article: Supplementary Figure 9 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 9 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 9
View article: Supplementary Figure 2 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 2 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 2
View article: Supplementary Figure 9 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 9 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 9
View article: Supplementary Figure 1 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 1 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 1
View article: Supplementary Figure 8 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 8 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 8
View article: Supplementary Figure 6 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 6 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 6
View article: Supplementary Figure 3 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 3 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 3
View article: Supplementary Figure 5 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 5 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 5
View article: Supplementary Figure 5 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 5 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 5
View article: Supplementary Figure 6 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Figure 6 from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Figure 6
View article: Supplementary Tables from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors
Supplementary Tables from PVRIG is Expressed on Stem-Like T Cells in Dendritic Cell–Rich Niches in Tumors and Its Blockade May Induce Immune Infiltration in Non-Inflamed Tumors Open
Supplementary Tables 1-8