Arnold Caplan
Case Western Reserve University, Biology, Faculty Member
Meniscectomy is known to be associated with osteoarthrosis of the knee. The purpose of this study was to compare the natural and augmented repair of menisci in the knees of New Zealand White rabbits. To create a partial defect in the... more
Meniscectomy is known to be associated with osteoarthrosis of the knee. The purpose of this study was to compare the natural and augmented repair of menisci in the knees of New Zealand White rabbits. To create a partial defect in the medial meniscus, we used an experimental model that has been well characterized and extensively used in the study of osteoarthrosis and articular cartilage repair. The defect was left untreated or treated with one of the following: a periosteal autograft, a type I collagen sponge, or the same sponge loaded with autologous, bone marrow-derived, cultured mesenchymal stem cells. The natural repair was always incomplete and degenerative changes within these joints were progressive. The periosteal autograft underwent differentiation into a bone and hyaline cartilage composite that was ineffectual as a meniscus and accelerated the degenerative changes in those joints when compared to natural repair controls. There was evidence of a consistent sequence of events in the transformation of the periosteal grafts to a core of cartilage that underwent endochondral ossification. In the last two groups, the collagen sponge functioned as a scaffold that resulted in more abundant repair tissue. The collagen sponge alone supported a largely fibrous repair process. The cultured mesenchymal stem cells were observed to augment the repair process in some specimens to include fibrocartilage histologically similar to normal meniscus. Degenerative changes were present in both of these groups, which indicates that the biomechanical function of the meniscus was not restored, or an irreversible osteoarthrosis cascade was initiated during the repair period. Based on these preliminary studies, further investigation of cell-based meniscus regeneration appears to be warranted.
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Research Interests: Biomaterials, Tissue Engineering, Biomechanics, Stem Cell, Multidisciplinary, and 21 moreBioreactor, Humans, Cartilage, Animals, Male, Oscillations, Glycosaminoglycan, Cartilage Repair, Middle Aged, Glycosaminoglycans, Mechanical Stress, Adult, Three Dimensional, Cartilage Tissue Engineering, Materials Testing, Growth Factor, Polyesters, Biocompatible Materials, Articular Cartilage, Mesenchymal Stromal Cells, and Human Mesenchymal Stem Cells
Skeleton and liver are preferred organs for cancer dissemination in metastatic melanoma negatively impacting quality of life, therapeutic success and overall survival rates. At the target organ, the local microenvironment and cell-to-cell... more
Skeleton and liver are preferred organs for cancer dissemination in metastatic melanoma negatively impacting quality of life, therapeutic success and overall survival rates. At the target organ, the local microenvironment and cell-to-cell interactions between invading and resident stromal cells constitute critical components during the establishment and progression of metastasis. Mesenchymal stem cells (MSCs) possess, in addition to their cell progenitor function, a secretory capacity based on cooperativity with other cell types in injury sites including primary tumors (PT). However, their role at the target organ microenvironment during cancer dissemination is not known. We report that local MSCs, acting as pericytes, regulate the extravasation of melanoma cancer cells (MCC) specifically to murine bone marrow (BM) and liver. Intra-arterially injected wild-type MCC fail to invade those selective organs in a genetic model of perturbed pericyte coverage of the vasculature (PDGF-B(ret/ret) ), similar to CD146-deficient MCC injected into wild type mice. Invading MCC interact with resident MSCs/pericytes at the perivascular space through co-expressed CD146 and Sdf-1/CXCL12-CXCR4 signaling. Implanted engineered bone structures with MSCs/pericytes deficient of either Sdf-1/CXCL12 or CD146 become resistant to invasion by circulating MCC. Collectively, the presence of MSCs/pericytes surrounding the target organ vasculature is required for efficient melanoma metastasis to BM and liver.
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It has been reported that demineralized bone matrix (cortical or trabecular bone) contains intrinsic cytokines. In the present study, we tested allogeneic demineralized bone matrix for its capacity to resurface osteochondral defects in a... more
It has been reported that demineralized bone matrix (cortical or trabecular bone) contains intrinsic cytokines. In the present study, we tested allogeneic demineralized bone matrix for its capacity to resurface osteochondral defects in a rabbit model with the assumption that the intrinsic cytokines in demineralized bone matrix will facilitate the recruitment of progenitor cells from bone marrow into the defect. It was further assumed that these intrinsic bioactive factors would modulate these cells to differentiate into osteochondrogenic lineage and, thus, functionally repair the osteochondral defect. The biocompatibility of demineralized bone matrix was first tested by loading rabbit bone-marrow-derived mesenchymal stem cells into porous demineralized trabecular bone matrix that was then cultured for 3 days. The cell growth in demineralized trabecular bone matrix was examined by scanning electron microscopy. Loaded rabbit bone-marrow-derived mesenchymal stem cells attached to the trabeculae of demineralized trabecular bone matrix; some cells appeared to be round and others were spread and contacted other cells. Allogeneic rabbit demineralized cortical bone matrix or demineralized trabecular bone matrix was implanted into a full-thickness osteochondral defect in the load-bearing area of the medial femoral condyle of young adult rabbits. At 6 and 12 weeks after surgery, gross and histological examination showed that the defects were repaired up to 95% of their depth. The repair tissue using demineralized cortical bone matrix was composed of subchondral bone and a top layer of cartilage that was smooth and integrated with the adjacent cartilage in most of the specimens. Most of the repair tissue in the defect filled with demineralized trabecular bone matrix had a fibrillated surface without integration with the adjacent cartilage. These results indicate that demineralized cortical bone matrix may be potentially useful to repair osteochondral defects by managing the host's intrinsic reparative cells.
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Periosteal cells were isolated from young chicks, introduced into cell culture, subcultured, and then inoculated into athymic, nude mice to test the in vivo osteochondrogenic potential of cultured periosteal cells. In monolayer cultures,... more
Periosteal cells were isolated from young chicks, introduced into cell culture, subcultured, and then inoculated into athymic, nude mice to test the in vivo osteochondrogenic potential of cultured periosteal cells. In monolayer cultures, the adherent periosteal cells showed fibroblastlike morphology and overtly expressed neither osteogenic nor chondrogenic phenotypes. Cultured cells inoculated heterotopically into nude mice eventually gave rise to bone tissue at the subcutaneous injection site. The process of bone formation occurred through two different mechanisms: intramembranous bone formation at the peripheral portion of the inoculum early and endochondral bone formation in the central portion later. Frozen, preserved periosteal cells also formed bone after introduction into nude mice in the same temporal histologic sequence as the unfrozen cells. Cultured chick muscle fibroblasts from donors that were the same age as controls did not form bone or cartilage when inoculated under identical conditions to those of cultured periosteal cells. These results suggest that periosteum of young chicks contains subsets of progenitor cells that possess the potential to differentiate directly into osteoblasts or chondrocytes when inoculated in vivo. Importantly, this potential is retained after enzymatic isolation, cell culture, subculturing, and freeze preservation.
Research Interests: Histology, Cell Culture, Cartilage, Mice, Animals, and 5 moreClinical Sciences, Chickens, Related, Osteoblasts, and Periosteum
The mechanical properties of skin are determined primarily by the extracellular matrix of the dermis. These mechanical and biological properties change significantly as a function of age. Key components of the extracellular matrix are... more
The mechanical properties of skin are determined primarily by the extracellular matrix of the dermis. These mechanical and biological properties change significantly as a function of age. Key components of the extracellular matrix are proteoglycans, which are molecules composed of a core protein and covalently attached glycosaminoglycans. Proteoglycans and their constituent glycosaminoglycans are involved in many biological processes which are important for dermal function, such as proper formation of the collagen network. A recently developed compound, C-xylopyranoside derivative (C-Xyloside), was designed to mimic β-xylosides, which are known initiators of glycosaminoglycan biosynthesis. C-Xyloside was found, by several criteria, to act like β-xylosides, such as in the eliciting of an increase in glycosaminoglycan synthesis by human dermal fibroblasts in culture. This increase may lead to the preservation of matrix integrity and thereby contribute to the firmness of skin. Thus, C-Xyloside may be useful in improving the quality of skin.
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Vitamin D appears to be required for mineralization of skeletal elements. There is also evidence that cartilage proteoglycans may be involved in the regulation of mineralization. Previous studies have shown an alteration in the structure... more
Vitamin D appears to be required for mineralization of skeletal elements. There is also evidence that cartilage proteoglycans may be involved in the regulation of mineralization. Previous studies have shown an alteration in the structure of the proteoglycans of the epiphyseal growth cartilage as a result of the decrease in serum calcium related to deficiency of dietary vitamin D. Vitamin D deficiency also induces a thickening of the epiphyseal growth plate presumably because of the inhibition of maturation of the growth plate chondrocytes. In order to compare the effect on proteoglycan structure with that on growth plate morphology, the proteoglycans of healing epiphyseal cartilage were characterized. The results indicate that, consistent with previous data, in vitamin D-deficient hatching chicks, the proteoglycans of the growth cartilage, but not of the articular cartilage, are smaller in monomer size with slightly smaller chondroitin sulfate chains whose sulfation pattern is unaltered. Sternal cartilage proteoglycans are unaffected. During recovery from vitamin D deficiency, the proteoglycans isolated from the growth cartilage are still not completely normal one day after supplementation with vitamin D, but are indistinguishable from normal by four days. In addition, the results conflict with those of a previous study in which only growth cartilage of hatchling chicks, not sternal or articular cartilage, was reported to synthesize large proteoglycans. Instead, all of these cartilages in the normal chicken have been found in this study to produce large proteoglycans of a size typical for mammalian cartilage and embryonic chick cartilage.
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Demineralized adult bone matrix initiates de novo ectopic endochondral ossification 2-3 weeks following its intramuscular implantation into adult animals. This phenomenon appears to be similar, in some ways, to inductive cell-matrix... more
Demineralized adult bone matrix initiates de novo ectopic endochondral ossification 2-3 weeks following its intramuscular implantation into adult animals. This phenomenon appears to be similar, in some ways, to inductive cell-matrix interactions which regulate cartilage and bone formation during development. In the present study, we used embryonic chick limb-bud mesenchymal-cell cultures to bioassay extracts of demineralized bone matrix for chondrogenic activity. Guanidinium-chloride (4 M) extracts of demineralized bovine bone were dialyzed against buffers of decreasing ionic strength and then cold water. The cold-water-soluble fraction was found to stimulate chondrogenesis in intermediate-density limb-bud cell cultures (2.2 X 10(6) cells per 35-mm dish), as revealed by visual inspection with phase optics, toluidine-blue staining of fixed plates, and [35S] sulfate incorporation in the cell layer. Further fractionation of this material by anion-exchange, carbohydrate-affinity, and molecular-sieve chromotography produced a semipurified preparation possessing chondrogenic-stimulating activity at doses ranging from 3 to 10 micrograms/ml. The in vitro chondrogenic response of limb-bud mesenchymal cells was dose-dependent, required a minimal initial plating density of 2.08 X 10(5) cells/mm2 of culture dish, and developed gradually over 8-10 days. At an optimal dose of extract, a continuous exposure period of at least 2-3 days was necessary to produce detectable chondrogenic stimulation. In addition, the amount of cartilage formed following an 8-day exposure was markedly influenced by the culture 'age' of the mesenchymal cells (i.e., the time between plating and the start of treatment).(ABSTRACT TRUNCATED AT 250 WORDS)
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Specific markers for cells of the osteogenic lineage would be valuable in studies on the differentiation and maintenance of skeletal tissue. In order to better characterize the lineage of cells responsible for the formation and remodeling... more
Specific markers for cells of the osteogenic lineage would be valuable in studies on the differentiation and maintenance of skeletal tissue. In order to better characterize the lineage of cells responsible for the formation and remodeling of bone, we immunized mice with a heterogeneous population of chick embryonic bone cells and subsequently generated and selected for monoclonal antibodies against cell surface determinants. We report here on the generation of three cell lines, SB-1, SB-2, and SB-3, which each secrete a unique antibody against a subset of differentiating osteogenic cells. Differences in immunoreactivity of osteogenic cells at precise stages of embryonic tibia development suggest the existence of an osteogenic cell lineage which is characterized by a series of discrete functional cell states progressing from osteoprogenitor cell to secretory osteoblast.
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The purpose of this study was to compare the ability to collect human bone marrow-derived mesenchymal (stromal) progenitor cells (MPC) from bone marrow versus peripheral blood hematopoietic progenitor cell (PBPC) collections using in... more
The purpose of this study was to compare the ability to collect human bone marrow-derived mesenchymal (stromal) progenitor cells (MPC) from bone marrow versus peripheral blood hematopoietic progenitor cell (PBPC) collections using in vitro and in vivo assays. Ten milliliter samples of PBPC collections mobilized from 11 patients undergoing autotransplants using chemotherapy followed by G-CSF 5-10 micrograms/kg were evaluated using in vitro and in vivo assays for hematopoietic progenitors and MPCs. Additionally, 10 ml samples of unstimulated bone marrow aspirates as well as PBPC collected after mobilization using G-CSF 10 micrograms/kg obtained from 3 normal, histocompatible allogeneic donors were analyzed for hematopoietic progenitors and MPCs. The MPCs were isolated and culture-expanded as adherent cells in vitro and subsequently tested for the capacity to differentiate into mesenchymal phenotypes in vivo using calcium hydroxyapatite porous ceramic cubes implanted s.c. in athymic mice. Demineralized sections of these cubes were analyzed histologically for the appearance of bone and cartilage. Seven autotransplant subjects with cancer received G-CSF after chemotherapy administration, whereas 4 cancer patients and all 3 normal donors received G-CSF alone as the mobilizing regimen. For the autologous PBPC collections and the normal marrow aspirations, median hematopoietic progenitor content was in the normal range for our institution. MPCs were detected in in vitro cultures and as bone-positive ceramic cubes in samples of all 3 allogeneic donor bone marrows but in none of the 14 autologous and 6 allogeneic PBPC collections. In conclusion, MPCs could not be recovered in PBPC collections obtained from either normal donors or patients who underwent PBPC collections after mobilization therapy but could be obtained routinely from bone marrow samples. Although the role of transplanted MPCs is an area of clinical investigation, this study points out a fundamental differences in the population of cells transplanted after collection from bone marrow versus peripheral blood.
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The myogenic potential of bone marrow- and periosteum-derived mesenchymal stem cells (MSCs) was studied in vitro by coculture of MSCs of snj mice with myoblasts of newborn snj mice or 3-week-old mdx mice. MSCs were labeled with... more
The myogenic potential of bone marrow- and periosteum-derived mesenchymal stem cells (MSCs) was studied in vitro by coculture of MSCs of snj mice with myoblasts of newborn snj mice or 3-week-old mdx mice. MSCs were labeled with [(3)H]thymidine and cocultured with muscle precursor cells. At 5 different time points, the cocultures were harvested and prepared for autoradiography. Cocultures of MSCs and mdx mouse-derived myoblasts were immunostained for dystrophin before autoradiography. Autoradiographic grains were detected over isolated nuclei in myotubes, which stained positively with antidystrophin antibody. In vivo myogenic potential of MSCs was tested by direct injection into growing muscle of mdx mice. Equal numbers of nonmutant bone marrow-derived MSCs or myoblasts were injected separately into the tibialis anterior muscles of mdx mice. Muscle samples were harvested at 6, 8, and 10 weeks after injection, weighed, and stained with antidystrophin antibody. A small yet significant increase in muscle mass was observed in both the myoblast-injected (11% increase) and MSC-injected muscles (3%), as compared to controls. Muscle injected with myoblasts showed a remarkable conversion from dystrophin-negative to dystrophin-positive fibers (30-40%) in mdx mice injected with normal myoblasts, as previously reported by others. The frequency of dystrophin-positive fibers in mdx mouse muscle injected with marrow-derived MSCs was lower than that of the muscles injected with myoblasts, but was significantly higher than control muscles injected with medium. These results suggest that within the population of MSCs there are cells that are able to differentiate into skeletal muscle.
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We evaluated the potential role of human mesenchymal stem cells (hMSCs) in improvement of urinary continence following birth-trauma injury. Human MSCs were injected periurethrally or systemically into rats immediately after vaginal... more
We evaluated the potential role of human mesenchymal stem cells (hMSCs) in improvement of urinary continence following birth-trauma injury. Human MSCs were injected periurethrally or systemically into rats immediately after vaginal distention (VD) (n = 90). Control groups were non-VD (uninjured/untreated, n = 15), local or systemic saline (injection/control, n = 90), and dermofibroblast (cell therapy/control, n = 90). Leak-point pressure (LPP) was measured 4, 10, and 14 days later. Urethras were morphometrically evaluated. In another sets of VD and non-VD rats, the fate of periurethrally injected hMSC, biodistribution, and in vivo viability was studied using human Alu genomic repeat staining, PKH26 labeling, and luciferase-expression labeling, respectively. Saline- and dermofibroblast-treated control rats demonstrated lower LPP than non-VD controls at days 4 and 14 (P < 0.01). LPP after systemic hMSC and periurethral hMSC treatment were comparable with non-VD controls at 4, 10, a...
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Uterine leiomyoma are a common benign pelvic tumors composed of modified smooth muscle cells and a large amount of extracellular matrix (ECM). The proteoglycan composition of the leiomyoma ECM is thought to affect pathophysiology of the... more
Uterine leiomyoma are a common benign pelvic tumors composed of modified smooth muscle cells and a large amount of extracellular matrix (ECM). The proteoglycan composition of the leiomyoma ECM is thought to affect pathophysiology of the disease. To test this hypothesis, we examined the abundance (by immunoblotting) and expression (by quantitative real-time polymerase chain reaction) of the proteoglycans biglycan, decorin, and versican in leiomyoma and normal myometrium and determined whether expression is affected by steroid hormones and menstrual phase. Leiomyoma and normal myometrium were collected from women (n = 17) undergoing hysterectomy or myomectomy. In vitro studies were performed on immortalized leiomyoma (UtLM) and normal myometrial (hTERT-HM) cells with and without exposure to estradiol and progesterone. In leiomyoma tissue, abundance of decorin messenger RNA (mRNA) and protein were 2.6-fold and 1.4-fold lower, respectively, compared with normal myometrium. Abundance of ...
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Mesenchymal stem sells (MSCs) are present in a variety of tissues during human development, and in adults they are prevalent in bone marrow. From that readily available source, MSCs can be isolated, expanded in culture, and stimulated to... more
Mesenchymal stem sells (MSCs) are present in a variety of tissues during human development, and in adults they are prevalent in bone marrow. From that readily available source, MSCs can be isolated, expanded in culture, and stimulated to differentiate into bone, cartilage, muscle, marrow stroma, tendon, fat and a variety of other connective tissues. Because large numbers of MSCs can be generated in culture, tissue-engineered constructs principally composed of these cells could be re-introduced into the in vivo setting. This approach is now being explored to regenerate tissues that the body cannot naturally repair or regenerate when challenged. Moreover, MSCs can be transduced with retroviral and other vectors and are, thus, potential candidates to deliver somatic gene therapies for local or systemic pathologies. Untapped applications include both diagnostic and prognostic uses of MSCs and their descendents in healthcare management. Finally, by understanding the complex, multistep an...
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Long-term lentiviral transduction of human mesenchymal stem cells (hMSCs) greatly enhances the usefulness of these cells. However, such transduction currently requires the use of polybrene, which severely inhibits hMSC proliferation. In... more
Long-term lentiviral transduction of human mesenchymal stem cells (hMSCs) greatly enhances the usefulness of these cells. However, such transduction currently requires the use of polybrene, which severely inhibits hMSC proliferation. In contrast, protamine sulfate at 100 μg/ml doubled transduction efficiencies without affecting proliferation or differentiation potential. Expression levels improved 2.2-fold with the addition of a woodchuck hepatitis post-transcriptional regulatory element. Further improvements in transduction efficiencies could be obtained by a modest increase in viral concentrations through increased viral titers or decreased transduction volumes without changing multiplicity of infection, by transducing over multiple days, or by culturing the cells in fibroblast growth factor-2. Centrifugation improved expression but had no effect on efficiency. Transgene expression was stable over 6 weeks in vitro and in vivo. Donor-to-donor and intradonor variability were observe...
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To develop a quantitative means to measure lung inflammation using the murine models of chronic asthma and cystic fibrosis (CF). Translational-based medicine often utilizes animal models to study new and innovative therapeutics. In asthma... more
To develop a quantitative means to measure lung inflammation using the murine models of chronic asthma and cystic fibrosis (CF). Translational-based medicine often utilizes animal models to study new and innovative therapeutics. In asthma and CF, the animal models focus on airway inflammation and remodeling. The asthma model is based on hypersensitivity-induced airway disease, whereas the CF model focuses on the inflammatory response to infection with Pseudomonas aeruginosa. Qualitative measures of inflammation and lung pathophysiology introduce significant variability and difficulty in interpreting interventional outcomes. The highly sensitive and reproducible quantitative computational program interfaced with Image Pro Microscopy to monitor changes in lung inflammation and lung pathophysiology. The software interfaces with image microscopy and automates the lung section review process. Results from this program recapitulated data obtained by manual point counting of inflammation, ...
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Production of skeletal muscle hypoplasia by 3-acetylpyridine and its complete reversal by nicotinamide in developing chicken embryos have been confirmed. Cultures of developing embryonic chicken muscle show degenerative effects produced... more
Production of skeletal muscle hypoplasia by 3-acetylpyridine and its complete reversal by nicotinamide in developing chicken embryos have been confirmed. Cultures of developing embryonic chicken muscle show degenerative effects produced by 3-acetylpyridine; these effects are reversed by nicotinamide. Cartilage production in cultured chondrogenic cells is potentiated by 3-acetylpyridine; this potentiation is completely reversed by nicotinamide. It is suggested that nicotinamide-or pyridine-nucleotide-dependent reactions influence normal differentiation of limb mesoderm cells by inhibiting chondrogenic-cell and potentiating muscle-cell expression or proliferation.
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The extracellular matrix of the mineralizing eggshell contains molecules hypothesized to be regulators of biomineralization. To study eggshell matrix molecules, a bank of monoclonal antibodies was generated that bound demineralized... more
The extracellular matrix of the mineralizing eggshell contains molecules hypothesized to be regulators of biomineralization. To study eggshell matrix molecules, a bank of monoclonal antibodies was generated that bound demineralized eggshell matrix or localized to oviduct epithelium. Immunofluorescence staining revealed several staining patterns for antibodies that recognized secretory cells: staining for a majority of columnar lining cells, staining for a minor sub-set of columnar lining cells, intensified staining within epithelial crypts, and staining of the entire tubular gland. Western blotting with the antibody Epi2 on eggshell matrix showed binding to molecules with the apparent molecular weight of eggshell matrix dermatan sulfate proteoglycan (eggshell DSPG). Immunoblots of cyanogen bromide-cleaved eggshell DSPG revealed broad band of reactivity that shifted to 25 kDa after chondroitinase digestion; indicating that the Epi2 binding site is located on a fragment which contains dermatan sulfate side chains. Immunogold labeling showed that Epi2 binds to secretory vesicles within the non-ciliated cells of the columnar epithelium, while the antibodies Tg1 and Tg2 bind to secretory vesicles of tubular gland cells. Immunogold labeling of demineralized shell matrix showed binding of Epi2, Tg1, and Tg2 to the matrix of the palisade layer, and showed little reactivity to other regions of the shell matrix. Quantification of the immunogold particles within the eggshell matrix revealed that antibodies Epi2 and Tg1 bind all calcified regions equally while antibody Tg2 has a greater affinity for the baseplate region of the calcium reserve assembly.