Abstract: The present invention relates to a method, in particular an in vitro method, for identifying follicular helper T cells, comprising analyzing the methylation status of at least one CpG position in the mammalian gene region for leukemia inhibitory factor (LIF), wherein a demethylation of said gene region is indicative for a follicular helper T cell, when compared to a non-follicular helper T cell. The analyses according to the invention can identify follicular helper T cells on an epigenetic level and distinguish them from all other cells in complex samples, such as, for example, other blood cells. The present invention furthermore provides an improved method for quantifying follicular helper T cells in complex samples. The method can be performed without a step of purifying and/or enriching cells, preferably in whole blood and/or non-trypsinized tissue.

Abstract: The present invention provides an epigenetic haemogram, also referred to as an epigenetic blood cell count that identifies the quantitative, comprehensive picture of cellular composition in a biological sample, wherein advantageously a normalization standard is used. The normalization standard is a nucleic acid molecule comprising at least one marker-region being specific for each of the blood cells to be detected, and at least one control-region being cell-unspecific, wherein said regions are present in the same number of copies on said molecule and/or a natural blood cell sample of known composition. Furthermore, the present invention relates to a kit and the use of a kit for performing the epigenetic assessment of comprehensive, quantitative cellular composition of a biological sample. The biological sample is derived from e.g.

Abstract: The present invention relates to a method, in particular an in vitro method, for identifying follicular helper T cells, comprising analyzing the methylation status of at least one CpG position in the mammalian gene region for leukemia inhibitory factor (LIF), wherein a demethylation of said gene region is indicative for a follicular helper T cell, when compared to a non-follicular helper T cell. The analyses according to the invention can identify follicular helper T cells on an epigenetic level and distinguish them from all other cells in complex samples, such as, for example, other blood cells. The present invention furthermore provides an improved method for quantifying follicular helper T cells in complex samples. The method can be performed without a step of purifying and/or enriching cells, preferably in whole blood and/or non-trypsinized tissue.

Abstract: The present invention provides an epigenetic haemogram, also referred to as an epigenetic blood cell count that identifies the quantitative, comprehensive picture of cellular composition in a biological sample, wherein advantageously a normalization standard is used. The normalization standard is a nucleic acid molecule comprising at least one marker-region being specific for each of the blood cells to be detected, and at least one control-region being cell-unspecific, wherein said regions are present in the same number of copies on said molecule and/or a natural blood cell sample of known composition. Furthermore, the present invention relates to a kit and the use of a kit for performing the epigenetic assessment of comprehensive, quantitative cellular composition of a biological sample. The biological sample is derived from e.g.

Abstract: The present invention provides an epigenetic haemogram, also referred to as an epigenetic blood cell count that identifies the quantitative, comprehensive picture of cellular composition in a biological sample, wherein advantageously a normalization standard is used. The normalization standard is a nucleic acid molecule comprising at least one marker-region being specific for each of the blood cells to be detected, and at least one control-region being cell-unspecific, wherein said regions are present in the same number of copies on said molecule and/or a natural blood cell sample of known composition. Furthermore, the present invention relates to a kit and the use of a kit for performing the epigenetic assessment of comprehensive, quantitative cellular composition of a biological sample. The biological sample is derived from e.g.

Abstract: The present invention provides an epigenetic haemogram, also referred to as an epigenetic blood cell count that identifies the quantitative, comprehensive picture of cellular composition in a biological sample, wherein advantageously a normalization standard is used. The normalization standard is a nucleic acid molecule comprising at least one marker-region being specific for each of the blood cells to be detected, and at least one control-region being cell-unspecific, wherein said regions are present in the same number of copies on said molecule and/or a natural blood cell sample of known composition. Furthermore, the present invention relates to a kit and the use of a kit for performing the epigenetic assessment of comprehensive, quantitative cellular composition of a biological sample. The biological sample is derived from e.g.