Abstract The key factor in successful development and marketing of biosimilar antibodies is a dee... more Abstract The key factor in successful development and marketing of biosimilar antibodies is a deep understanding of their critical quality attributes and the ability to control them. Comprehensive functional characterization is therefore at the heart of the process and is a crucial part of regulatory requirements. Establishment of a scientifically sound molecule-specific functional in vitro assay panel requires diligent planning and high flexibility in order to respond to both regulatory requirements and the ever-changing demands relevant to the different stages of the development and production process. Relevance of the chosen assays to the in vivo mechanism of action is of key importance to the stepwise evidence-based demonstration of biosimilarity. Use of a sound interdisciplinary approach and orthogonal state-of-the-art techniques is also unavoidable for gaining in-depth understanding of the biosimilar candidate. The aim of the present review is to give a snapshot on the methodic landscape as depicted by the available literature discussing the in vitro techniques used for the functional characterization of approved biosimilar therapeutic antibodies. Emerging hot topics of the field and relevant structure-function relationships are also highlighted.
Mast cells are rich sources of proteases, such as tryptases and chymases that control many physio... more Mast cells are rich sources of proteases, such as tryptases and chymases that control many physiological and pathological processes, for example vascular permeability, smooth muscle cell proliferation or extracellular matrix remodeling. Murine mucosal mast cells mature under the influence of TGF-beta and play a role in asthmatic and anti-helminthic immune responses. In an attempt to identify novel genes that are highly upregulated during mucosal mast cell differentiation, we detected HtrA1 protease as a novel protein in mast cells by microarray experiments. HtrA1 level was much higher in murine mucosal than in connective tissue-type mast cells. Furthermore, HtrA1 is not localized in the secretory granules and is constitutively secreted by human mast cells. Although HtrA1 has been attributed a TGF-beta-inhibitory activity, it did not show any influence on TGF-beta-induced mucosal mast cell differentiation. As many extracellular target proteins have been suggested for HtrA1, this protease may participate in the mast cell-induced extracellular remodeling.
In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNA... more In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNAs) not only in hematopoiesis and cancer, but also in inflammatory and infectious diseases. Regarding myeloid cells, our knowledge is relatively insufficient, therefore we intended to collect the available data of miRNA profiles of myeloid cells. In addition to a rather general myeloid regulator miR-223, two other miRNAs seem to be useful subjects in understanding of myeloid miRNA biology: miR-27a and miR-652. We review functions of these three miRNAs and other myeloid miRNAs focusing on their roles in monocytes, neutrophils, eosinophils, basophils and mast cells.
HA is a biogenic amine, widely distributed throughout the body. Given the observations that HA, t... more HA is a biogenic amine, widely distributed throughout the body. Given the observations that HA, the decarboxylated amino acid histidine, can be induced and made available in an unstored, diffusible form in tissues undergoing rapid growth (such as tumors and regenerating tissues), it could have a role in antitumor response beyond the well-studied inflammatory and allergic responses.
Mast cells are rich sources of proteases, such as tryptases and chymases that control many physio... more Mast cells are rich sources of proteases, such as tryptases and chymases that control many physiological and pathological processes, for example vascular permeability, smooth muscle cell proliferation or extracellular matrix remodeling. Murine mucosal mast cells mature under the influence of TGF-beta and play a role in asthmatic and anti-helminthic immune responses. In an attempt to identify novel genes that are highly upregulated during mucosal mast cell differentiation, we detected HtrA1 protease as a novel protein in mast cells by microarray experiments. HtrA1 level was much higher in murine mucosal than in connective tissue-type mast cells. Furthermore, HtrA1 is not localized in the secretory granules and is constitutively secreted by human mast cells. Although HtrA1 has been attributed a TGF-beta-inhibitory activity, it did not show any influence on TGF-beta-induced mucosal mast cell differentiation. As many extracellular target proteins have been suggested for HtrA1, this protease may participate in the mast cell-induced extracellular remodeling.
In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNA... more In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNAs) not only in hematopoiesis and cancer, but also in inflammatory and infectious diseases. Regarding myeloid cells, our knowledge is relatively insufficient, therefore we intended to collect the available data of miRNA profiles of myeloid cells. In addition to a rather general myeloid regulator miR-223, two other miRNAs seem to be useful subjects in understanding of myeloid miRNA biology: miR-27a and miR-652. We review functions of these three miRNAs and other myeloid miRNAs focusing on their roles in monocytes, neutrophils, eosinophils, basophils and mast cells.
Abstract The key factor in successful development and marketing of biosimilar antibodies is a dee... more Abstract The key factor in successful development and marketing of biosimilar antibodies is a deep understanding of their critical quality attributes and the ability to control them. Comprehensive functional characterization is therefore at the heart of the process and is a crucial part of regulatory requirements. Establishment of a scientifically sound molecule-specific functional in vitro assay panel requires diligent planning and high flexibility in order to respond to both regulatory requirements and the ever-changing demands relevant to the different stages of the development and production process. Relevance of the chosen assays to the in vivo mechanism of action is of key importance to the stepwise evidence-based demonstration of biosimilarity. Use of a sound interdisciplinary approach and orthogonal state-of-the-art techniques is also unavoidable for gaining in-depth understanding of the biosimilar candidate. The aim of the present review is to give a snapshot on the methodic landscape as depicted by the available literature discussing the in vitro techniques used for the functional characterization of approved biosimilar therapeutic antibodies. Emerging hot topics of the field and relevant structure-function relationships are also highlighted.
Mast cells are rich sources of proteases, such as tryptases and chymases that control many physio... more Mast cells are rich sources of proteases, such as tryptases and chymases that control many physiological and pathological processes, for example vascular permeability, smooth muscle cell proliferation or extracellular matrix remodeling. Murine mucosal mast cells mature under the influence of TGF-beta and play a role in asthmatic and anti-helminthic immune responses. In an attempt to identify novel genes that are highly upregulated during mucosal mast cell differentiation, we detected HtrA1 protease as a novel protein in mast cells by microarray experiments. HtrA1 level was much higher in murine mucosal than in connective tissue-type mast cells. Furthermore, HtrA1 is not localized in the secretory granules and is constitutively secreted by human mast cells. Although HtrA1 has been attributed a TGF-beta-inhibitory activity, it did not show any influence on TGF-beta-induced mucosal mast cell differentiation. As many extracellular target proteins have been suggested for HtrA1, this protease may participate in the mast cell-induced extracellular remodeling.
In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNA... more In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNAs) not only in hematopoiesis and cancer, but also in inflammatory and infectious diseases. Regarding myeloid cells, our knowledge is relatively insufficient, therefore we intended to collect the available data of miRNA profiles of myeloid cells. In addition to a rather general myeloid regulator miR-223, two other miRNAs seem to be useful subjects in understanding of myeloid miRNA biology: miR-27a and miR-652. We review functions of these three miRNAs and other myeloid miRNAs focusing on their roles in monocytes, neutrophils, eosinophils, basophils and mast cells.
HA is a biogenic amine, widely distributed throughout the body. Given the observations that HA, t... more HA is a biogenic amine, widely distributed throughout the body. Given the observations that HA, the decarboxylated amino acid histidine, can be induced and made available in an unstored, diffusible form in tissues undergoing rapid growth (such as tumors and regenerating tissues), it could have a role in antitumor response beyond the well-studied inflammatory and allergic responses.
Mast cells are rich sources of proteases, such as tryptases and chymases that control many physio... more Mast cells are rich sources of proteases, such as tryptases and chymases that control many physiological and pathological processes, for example vascular permeability, smooth muscle cell proliferation or extracellular matrix remodeling. Murine mucosal mast cells mature under the influence of TGF-beta and play a role in asthmatic and anti-helminthic immune responses. In an attempt to identify novel genes that are highly upregulated during mucosal mast cell differentiation, we detected HtrA1 protease as a novel protein in mast cells by microarray experiments. HtrA1 level was much higher in murine mucosal than in connective tissue-type mast cells. Furthermore, HtrA1 is not localized in the secretory granules and is constitutively secreted by human mast cells. Although HtrA1 has been attributed a TGF-beta-inhibitory activity, it did not show any influence on TGF-beta-induced mucosal mast cell differentiation. As many extracellular target proteins have been suggested for HtrA1, this protease may participate in the mast cell-induced extracellular remodeling.
In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNA... more In the past few years expanding knowledge has been accumulated about the role of microRNAs (miRNAs) not only in hematopoiesis and cancer, but also in inflammatory and infectious diseases. Regarding myeloid cells, our knowledge is relatively insufficient, therefore we intended to collect the available data of miRNA profiles of myeloid cells. In addition to a rather general myeloid regulator miR-223, two other miRNAs seem to be useful subjects in understanding of myeloid miRNA biology: miR-27a and miR-652. We review functions of these three miRNAs and other myeloid miRNAs focusing on their roles in monocytes, neutrophils, eosinophils, basophils and mast cells.
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Papers by Anna Gilicze