Methods for production of platelets from pluripotent stem cells, such as human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) are provided. These methods may be performed without forming embryoid bodies or clusters of pluripotent stem cells, and may be performed without the use of stromal inducer cells. Additionally, the yield and/or purity can be greater than has been reported for prior methods of producing platelets from pluripotent stem cells. Also provided are compositions and pharmaceutical preparations comprising platelets, preferably produced from pluripotent stem cells.

A seed cell medium of a tumor-infiltrating lymphocyte and an application thereof. The medium contains a cell culture component, a cell factor, and an immune checkpoint antibody or an antigen-binding fragment thereof. The cell factor includes IL-2; an immune checkpoint includes PD-1, LAG-3, TIGIT, and/or CTLA-4; and the cell culture component is a serum medium or a serum-free medium. The seed cell medium accelerates a culture of a seed cell of the tumor-infiltrating lymphocyte and shortens the amplification time required by the tumor-infiltrating lymphocyte.

A hydrogel capsule comprising a stem cell core that has been induced to differentiate into a hematopoietic lineage cell, and methods for the production of hematopoietic lineage cells from stem cells encapsulated in a hydrogel.

The present invention provides methods of expanding γδ T cells from a non-haematopoietic tissue source. Further provided are compositions of expanded γδ T cells and methods of using the expanded γδ T cells (e.g., apart of an adoptive T cell therapy).

The present disclosure provides methods for generating megakaryocytes and novel platelet variants from the same CD34+ progenitor stem cells, which comprises at least two stages: stage zero (0) comprising an expansion and maintenance stage of the CD34+ progenitor stem cells for a period ranging between 0 hours to 48 hours; and, stage one (I) comprising a differentiation phase wherein the differentiation phase comprises differentiating the CD34+ progenitor stem cells in step (i) for a period sufficient to generate substantially matured megakaryocytes. Novel platelet variants are produced by passaging the megakaryocytes, produced by the CD34+ progenitor stem cells, through a bioreactor or a fluidic device. Formulations comprising megakaryocytes and platelet variants derived from CD34+ progenitor stem cells and methods of their use are also disclosed.

The present description relates to in vitro methods for culturing hematopoietic stem cells (HSCs) under mild hyperthermia conditions (e.g., between 38° C. and 40° C.) in the presence of a pyrimidoindole derivative agonist of hematopoietic stem cell expansion. The combined use of mild hyperthermia and the pyrimidoindole derivative act synergistically to promote expansion of CD34+ HSCs and/or differentiation into progenitor cells (e.g., megakaryocytic progenitors). The present description also relates to in vitro expanded cell populations of HSCs and/or progenitors, as well as uses thereof in therapy (e.g., transplantation).

The invention relates to a method of producing CD34+CD4.sup.dim megakaryocyte (MK) progenitor cells, and substantially pure cell population of megakaryocyte precursor cells obtained by said method. The invention also relates to a method of producing proplatelet-bearing MKs and/or platelets using the CD34+CD4.sup.dim cells.

Methods for production of platelets from pluripotent stem cells, such as human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) are provided. These methods may be performed without forming embryoid bodies or clusters of pluripotent stem cells, and may be performed without the use of stromal inducer cells. Additionally, the yield and/or purity can be greater than has been reported for prior methods of producing platelets from pluripotent stem cells. Also provided are compositions and pharmaceutical preparations comprising platelets, preferably produced from pluripotent stem cells.

The invention relates to a method of producing CD34.sup.+CD41.sup.dim megakaryocyte (MK) progenitor cells, and a substantially pure cell population of megakaryocyte precursor cells obtained by said method and compositions thereof. The invention also relates to a method of producing proplatelet-bearing MKs and/or platelets using the CD34.sup.+CD41.sup.dim cells.

The present invention provides methods of expanding γδ T cells from a non-haematopoietic tissue source. Further provided are compositions of expanded γδ T cells and methods of using the expanded γδ T cells (e.g., a part of an adoptive T cell therapy).