The invention provides methods of increasing the efficacy of a T cell therapy in a patient in need thereof. The invention includes a method of conditioning a patient prior to a T cell therapy, wherein the conditioning involves administering a combination of cyclophosphamide and fludarabine.

The invention provides methods of increasing the efficacy of a T cell therapy in a patient in need thereof. The invention includes a method of conditioning a patient prior to a T cell therapy, wherein the conditioning involves administering a combination of cyclophosphamide and fludarabine.

The present disclosure provides compositions and methods for improving reproductive health of mammals and increasing milk production from female mammals. The methods involve administering an effective amount of IL-8 to a female mammal such that the reproductive health of the mammal is improved, or milk production from the mammal is increased, or the fat content of the milk is increased, or the dry matter intake of the mammal is improved, or a combination thereof occurs. In another aspect the disclosure includes prophylaxis and/or therapy of uterine conditions by administering IL-8 to a female mammal. The disclosure includes but is not necessarily limited to systemic administration of the IL-8. Kits for carrying out the methods are also included.

The invention provides methods of increasing the efficacy of a T cell therapy in a patient in need thereof. The invention includes a method of conditioning a patient prior to a T cell therapy, wherein the conditioning involves administering a combination of cyclophosphamide and fludarabine.

A method for overcoming mild to moderate immune suppression includes the steps of inducing production of naive T-cells and restoring T-cell immunity. A method of vaccine immunotherapy includes the steps of inducing production of naive T-cells and exposing the naive T-cells to endogenous or exogenous antigens at an appropriate site. Additionally, a method for unblocking immunization at a regional lymph node includes the steps of promoting differentiation and maturation of immature dendritic cells at a regional lymph node and allowing presentation of processed peptides by resulting mature dendritic cells, thus, for example, exposing tumor peptides to T-cells to gain immunization of the T-cells. Further, a method of treating cancer and other persistent lesions includes the steps of administering an effective amount of a natural cytokine mixture as an adjuvant to endogenous or exogenous administered antigen to the cancer or other persistent lesions.

The present innovation relates to a novel formulation capable of increasing the amount of stem cells and progenitor cells in circulation in the peripheral blood of a mammal; the formulation is characterized in that it contains defibrotide in combination with at least one haematopoietic factor having the capacity to mobilize haematopoietic progenitors, preferably G-CSF. In one embodiment, the formulation includes two separately administrable formulations, one containing a haematopoietic factor having the capacity to mobilize haematopoietic progenitors and the other containing defibrotide. The formulation is effective to achieve an increase in the number of haematopoietic progenitor cells that is greater than an increase in the number of haematopoietic progenitor cells achieved by the haematopoietic factor alone.

The present invention relates to a conditioned medium (CM) which is obtained by culturing, in a liquid culture medium, placental mesenchymal stem cells isolated from the placental tissue of pregnant women who not affected by preeclampsia. The conditioned medium of the present invention includes at least IL-6, IL-8 and MCP-1 proteins. The conditioned medium of the present invention is effective for the therapeutic treatment of preeclampsia.

The present disclosure provides a composition comprising a bioactive fraction derived from a platelet concentrate, methods of making the bioactive fraction, and culture medium supplemented with the bioactive fraction. Preferred bioactive fractions have relatively low fibrinogen concentrations while retaining native growth factors in beneficial amounts and ratios.

This disclosure relates to mRNA therapy for (i) the promotion and/or improvement of wound healing, (ii) the prevention and/or reduction of scar formation at a wound, (iii) the reduction of the visibility of a scar, and/or (iv) the treatment of epidermolysis bullosa. mRNAs for use in the invention, when intradermally (e.g., using microneedles) or topically administered in vivo, encode a wound healing polypeptide (e.g., a growth factor, a cytokine, a chemokine, a protease inhibitor, or a collagen).

The invention provides a pharmaceutical composition including a peptide comprising at least a portion of a chemokine receptor or a G-protein coupled receptor and optionally a cytokine. The pharmaceutical composition of the invention may be used for altering immune system functioning, for example, to treat an immune system disorder, such as an autoimmune disease, multiple sclerosis, transplant rejection, psoriasis and asthma. The invention also provides peptides that may be used in the pharmaceutical composition and a method for preparing the pharmaceutical composition of the invention. The invention further provides a method for to treating an immune system disorder, such as an autoimmune disease, multiple sclerosis, transplant rejection, and psoriasis asthma.